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authorJosé Pekkarinen <jose.pekkarinen@nokia.com>2016-05-18 13:18:31 +0300
committerJosé Pekkarinen <jose.pekkarinen@nokia.com>2016-05-18 13:42:15 +0300
commit437fd90c0250dee670290f9b714253671a990160 (patch)
treeb871786c360704244a07411c69fb58da9ead4a06 /qemu/disas/libvixl/a64/assembler-a64.h
parent5bbd6fe9b8bab2a93e548c5a53b032d1939eec05 (diff)
These changes are the raw update to qemu-2.6.
Collission happened in the following patches: migration: do cleanup operation after completion(738df5b9) Bug fix.(1750c932f86) kvmclock: add a new function to update env->tsc.(b52baab2) The code provided by the patches was already in the upstreamed version. Change-Id: I3cc11841a6a76ae20887b2e245710199e1ea7f9a Signed-off-by: José Pekkarinen <jose.pekkarinen@nokia.com>
Diffstat (limited to 'qemu/disas/libvixl/a64/assembler-a64.h')
-rw-r--r--qemu/disas/libvixl/a64/assembler-a64.h2353
1 files changed, 0 insertions, 2353 deletions
diff --git a/qemu/disas/libvixl/a64/assembler-a64.h b/qemu/disas/libvixl/a64/assembler-a64.h
deleted file mode 100644
index 35aaf20f7..000000000
--- a/qemu/disas/libvixl/a64/assembler-a64.h
+++ /dev/null
@@ -1,2353 +0,0 @@
-// Copyright 2013, ARM Limited
-// All rights reserved.
-//
-// Redistribution and use in source and binary forms, with or without
-// modification, are permitted provided that the following conditions are met:
-//
-// * Redistributions of source code must retain the above copyright notice,
-// this list of conditions and the following disclaimer.
-// * Redistributions in binary form must reproduce the above copyright notice,
-// this list of conditions and the following disclaimer in the documentation
-// and/or other materials provided with the distribution.
-// * Neither the name of ARM Limited nor the names of its contributors may be
-// used to endorse or promote products derived from this software without
-// specific prior written permission.
-//
-// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS CONTRIBUTORS "AS IS" AND
-// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
-// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
-// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
-// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
-// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
-// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
-// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
-// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
-// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-
-#ifndef VIXL_A64_ASSEMBLER_A64_H_
-#define VIXL_A64_ASSEMBLER_A64_H_
-
-#include <list>
-#include <stack>
-
-#include "globals.h"
-#include "utils.h"
-#include "code-buffer.h"
-#include "a64/instructions-a64.h"
-
-namespace vixl {
-
-typedef uint64_t RegList;
-static const int kRegListSizeInBits = sizeof(RegList) * 8;
-
-
-// Registers.
-
-// Some CPURegister methods can return Register and FPRegister types, so we
-// need to declare them in advance.
-class Register;
-class FPRegister;
-
-
-class CPURegister {
- public:
- enum RegisterType {
- // The kInvalid value is used to detect uninitialized static instances,
- // which are always zero-initialized before any constructors are called.
- kInvalid = 0,
- kRegister,
- kFPRegister,
- kNoRegister
- };
-
- CPURegister() : code_(0), size_(0), type_(kNoRegister) {
- VIXL_ASSERT(!IsValid());
- VIXL_ASSERT(IsNone());
- }
-
- CPURegister(unsigned code, unsigned size, RegisterType type)
- : code_(code), size_(size), type_(type) {
- VIXL_ASSERT(IsValidOrNone());
- }
-
- unsigned code() const {
- VIXL_ASSERT(IsValid());
- return code_;
- }
-
- RegisterType type() const {
- VIXL_ASSERT(IsValidOrNone());
- return type_;
- }
-
- RegList Bit() const {
- VIXL_ASSERT(code_ < (sizeof(RegList) * 8));
- return IsValid() ? (static_cast<RegList>(1) << code_) : 0;
- }
-
- unsigned size() const {
- VIXL_ASSERT(IsValid());
- return size_;
- }
-
- int SizeInBytes() const {
- VIXL_ASSERT(IsValid());
- VIXL_ASSERT(size() % 8 == 0);
- return size_ / 8;
- }
-
- int SizeInBits() const {
- VIXL_ASSERT(IsValid());
- return size_;
- }
-
- bool Is32Bits() const {
- VIXL_ASSERT(IsValid());
- return size_ == 32;
- }
-
- bool Is64Bits() const {
- VIXL_ASSERT(IsValid());
- return size_ == 64;
- }
-
- bool IsValid() const {
- if (IsValidRegister() || IsValidFPRegister()) {
- VIXL_ASSERT(!IsNone());
- return true;
- } else {
- VIXL_ASSERT(IsNone());
- return false;
- }
- }
-
- bool IsValidRegister() const {
- return IsRegister() &&
- ((size_ == kWRegSize) || (size_ == kXRegSize)) &&
- ((code_ < kNumberOfRegisters) || (code_ == kSPRegInternalCode));
- }
-
- bool IsValidFPRegister() const {
- return IsFPRegister() &&
- ((size_ == kSRegSize) || (size_ == kDRegSize)) &&
- (code_ < kNumberOfFPRegisters);
- }
-
- bool IsNone() const {
- // kNoRegister types should always have size 0 and code 0.
- VIXL_ASSERT((type_ != kNoRegister) || (code_ == 0));
- VIXL_ASSERT((type_ != kNoRegister) || (size_ == 0));
-
- return type_ == kNoRegister;
- }
-
- bool Aliases(const CPURegister& other) const {
- VIXL_ASSERT(IsValidOrNone() && other.IsValidOrNone());
- return (code_ == other.code_) && (type_ == other.type_);
- }
-
- bool Is(const CPURegister& other) const {
- VIXL_ASSERT(IsValidOrNone() && other.IsValidOrNone());
- return Aliases(other) && (size_ == other.size_);
- }
-
- bool IsZero() const {
- VIXL_ASSERT(IsValid());
- return IsRegister() && (code_ == kZeroRegCode);
- }
-
- bool IsSP() const {
- VIXL_ASSERT(IsValid());
- return IsRegister() && (code_ == kSPRegInternalCode);
- }
-
- bool IsRegister() const {
- return type_ == kRegister;
- }
-
- bool IsFPRegister() const {
- return type_ == kFPRegister;
- }
-
- bool IsW() const { return IsValidRegister() && Is32Bits(); }
- bool IsX() const { return IsValidRegister() && Is64Bits(); }
- bool IsS() const { return IsValidFPRegister() && Is32Bits(); }
- bool IsD() const { return IsValidFPRegister() && Is64Bits(); }
-
- const Register& W() const;
- const Register& X() const;
- const FPRegister& S() const;
- const FPRegister& D() const;
-
- bool IsSameSizeAndType(const CPURegister& other) const {
- return (size_ == other.size_) && (type_ == other.type_);
- }
-
- protected:
- unsigned code_;
- unsigned size_;
- RegisterType type_;
-
- private:
- bool IsValidOrNone() const {
- return IsValid() || IsNone();
- }
-};
-
-
-class Register : public CPURegister {
- public:
- Register() : CPURegister() {}
- explicit Register(const CPURegister& other)
- : CPURegister(other.code(), other.size(), other.type()) {
- VIXL_ASSERT(IsValidRegister());
- }
- Register(unsigned code, unsigned size)
- : CPURegister(code, size, kRegister) {}
-
- bool IsValid() const {
- VIXL_ASSERT(IsRegister() || IsNone());
- return IsValidRegister();
- }
-
- static const Register& WRegFromCode(unsigned code);
- static const Register& XRegFromCode(unsigned code);
-
- private:
- static const Register wregisters[];
- static const Register xregisters[];
-};
-
-
-class FPRegister : public CPURegister {
- public:
- FPRegister() : CPURegister() {}
- explicit FPRegister(const CPURegister& other)
- : CPURegister(other.code(), other.size(), other.type()) {
- VIXL_ASSERT(IsValidFPRegister());
- }
- FPRegister(unsigned code, unsigned size)
- : CPURegister(code, size, kFPRegister) {}
-
- bool IsValid() const {
- VIXL_ASSERT(IsFPRegister() || IsNone());
- return IsValidFPRegister();
- }
-
- static const FPRegister& SRegFromCode(unsigned code);
- static const FPRegister& DRegFromCode(unsigned code);
-
- private:
- static const FPRegister sregisters[];
- static const FPRegister dregisters[];
-};
-
-
-// No*Reg is used to indicate an unused argument, or an error case. Note that
-// these all compare equal (using the Is() method). The Register and FPRegister
-// variants are provided for convenience.
-const Register NoReg;
-const FPRegister NoFPReg;
-const CPURegister NoCPUReg;
-
-
-#define DEFINE_REGISTERS(N) \
-const Register w##N(N, kWRegSize); \
-const Register x##N(N, kXRegSize);
-REGISTER_CODE_LIST(DEFINE_REGISTERS)
-#undef DEFINE_REGISTERS
-const Register wsp(kSPRegInternalCode, kWRegSize);
-const Register sp(kSPRegInternalCode, kXRegSize);
-
-
-#define DEFINE_FPREGISTERS(N) \
-const FPRegister s##N(N, kSRegSize); \
-const FPRegister d##N(N, kDRegSize);
-REGISTER_CODE_LIST(DEFINE_FPREGISTERS)
-#undef DEFINE_FPREGISTERS
-
-
-// Registers aliases.
-const Register ip0 = x16;
-const Register ip1 = x17;
-const Register lr = x30;
-const Register xzr = x31;
-const Register wzr = w31;
-
-
-// AreAliased returns true if any of the named registers overlap. Arguments
-// set to NoReg are ignored. The system stack pointer may be specified.
-bool AreAliased(const CPURegister& reg1,
- const CPURegister& reg2,
- const CPURegister& reg3 = NoReg,
- const CPURegister& reg4 = NoReg,
- const CPURegister& reg5 = NoReg,
- const CPURegister& reg6 = NoReg,
- const CPURegister& reg7 = NoReg,
- const CPURegister& reg8 = NoReg);
-
-
-// AreSameSizeAndType returns true if all of the specified registers have the
-// same size, and are of the same type. The system stack pointer may be
-// specified. Arguments set to NoReg are ignored, as are any subsequent
-// arguments. At least one argument (reg1) must be valid (not NoCPUReg).
-bool AreSameSizeAndType(const CPURegister& reg1,
- const CPURegister& reg2,
- const CPURegister& reg3 = NoCPUReg,
- const CPURegister& reg4 = NoCPUReg,
- const CPURegister& reg5 = NoCPUReg,
- const CPURegister& reg6 = NoCPUReg,
- const CPURegister& reg7 = NoCPUReg,
- const CPURegister& reg8 = NoCPUReg);
-
-
-// Lists of registers.
-class CPURegList {
- public:
- explicit CPURegList(CPURegister reg1,
- CPURegister reg2 = NoCPUReg,
- CPURegister reg3 = NoCPUReg,
- CPURegister reg4 = NoCPUReg)
- : list_(reg1.Bit() | reg2.Bit() | reg3.Bit() | reg4.Bit()),
- size_(reg1.size()), type_(reg1.type()) {
- VIXL_ASSERT(AreSameSizeAndType(reg1, reg2, reg3, reg4));
- VIXL_ASSERT(IsValid());
- }
-
- CPURegList(CPURegister::RegisterType type, unsigned size, RegList list)
- : list_(list), size_(size), type_(type) {
- VIXL_ASSERT(IsValid());
- }
-
- CPURegList(CPURegister::RegisterType type, unsigned size,
- unsigned first_reg, unsigned last_reg)
- : size_(size), type_(type) {
- VIXL_ASSERT(((type == CPURegister::kRegister) &&
- (last_reg < kNumberOfRegisters)) ||
- ((type == CPURegister::kFPRegister) &&
- (last_reg < kNumberOfFPRegisters)));
- VIXL_ASSERT(last_reg >= first_reg);
- list_ = (UINT64_C(1) << (last_reg + 1)) - 1;
- list_ &= ~((UINT64_C(1) << first_reg) - 1);
- VIXL_ASSERT(IsValid());
- }
-
- CPURegister::RegisterType type() const {
- VIXL_ASSERT(IsValid());
- return type_;
- }
-
- // Combine another CPURegList into this one. Registers that already exist in
- // this list are left unchanged. The type and size of the registers in the
- // 'other' list must match those in this list.
- void Combine(const CPURegList& other) {
- VIXL_ASSERT(IsValid());
- VIXL_ASSERT(other.type() == type_);
- VIXL_ASSERT(other.RegisterSizeInBits() == size_);
- list_ |= other.list();
- }
-
- // Remove every register in the other CPURegList from this one. Registers that
- // do not exist in this list are ignored. The type and size of the registers
- // in the 'other' list must match those in this list.
- void Remove(const CPURegList& other) {
- VIXL_ASSERT(IsValid());
- VIXL_ASSERT(other.type() == type_);
- VIXL_ASSERT(other.RegisterSizeInBits() == size_);
- list_ &= ~other.list();
- }
-
- // Variants of Combine and Remove which take a single register.
- void Combine(const CPURegister& other) {
- VIXL_ASSERT(other.type() == type_);
- VIXL_ASSERT(other.size() == size_);
- Combine(other.code());
- }
-
- void Remove(const CPURegister& other) {
- VIXL_ASSERT(other.type() == type_);
- VIXL_ASSERT(other.size() == size_);
- Remove(other.code());
- }
-
- // Variants of Combine and Remove which take a single register by its code;
- // the type and size of the register is inferred from this list.
- void Combine(int code) {
- VIXL_ASSERT(IsValid());
- VIXL_ASSERT(CPURegister(code, size_, type_).IsValid());
- list_ |= (UINT64_C(1) << code);
- }
-
- void Remove(int code) {
- VIXL_ASSERT(IsValid());
- VIXL_ASSERT(CPURegister(code, size_, type_).IsValid());
- list_ &= ~(UINT64_C(1) << code);
- }
-
- static CPURegList Union(const CPURegList& list_1, const CPURegList& list_2) {
- VIXL_ASSERT(list_1.type_ == list_2.type_);
- VIXL_ASSERT(list_1.size_ == list_2.size_);
- return CPURegList(list_1.type_, list_1.size_, list_1.list_ | list_2.list_);
- }
- static CPURegList Union(const CPURegList& list_1,
- const CPURegList& list_2,
- const CPURegList& list_3);
- static CPURegList Union(const CPURegList& list_1,
- const CPURegList& list_2,
- const CPURegList& list_3,
- const CPURegList& list_4);
-
- static CPURegList Intersection(const CPURegList& list_1,
- const CPURegList& list_2) {
- VIXL_ASSERT(list_1.type_ == list_2.type_);
- VIXL_ASSERT(list_1.size_ == list_2.size_);
- return CPURegList(list_1.type_, list_1.size_, list_1.list_ & list_2.list_);
- }
- static CPURegList Intersection(const CPURegList& list_1,
- const CPURegList& list_2,
- const CPURegList& list_3);
- static CPURegList Intersection(const CPURegList& list_1,
- const CPURegList& list_2,
- const CPURegList& list_3,
- const CPURegList& list_4);
-
- RegList list() const {
- VIXL_ASSERT(IsValid());
- return list_;
- }
-
- void set_list(RegList new_list) {
- VIXL_ASSERT(IsValid());
- list_ = new_list;
- }
-
- // Remove all callee-saved registers from the list. This can be useful when
- // preparing registers for an AAPCS64 function call, for example.
- void RemoveCalleeSaved();
-
- CPURegister PopLowestIndex();
- CPURegister PopHighestIndex();
-
- // AAPCS64 callee-saved registers.
- static CPURegList GetCalleeSaved(unsigned size = kXRegSize);
- static CPURegList GetCalleeSavedFP(unsigned size = kDRegSize);
-
- // AAPCS64 caller-saved registers. Note that this includes lr.
- static CPURegList GetCallerSaved(unsigned size = kXRegSize);
- static CPURegList GetCallerSavedFP(unsigned size = kDRegSize);
-
- bool IsEmpty() const {
- VIXL_ASSERT(IsValid());
- return list_ == 0;
- }
-
- bool IncludesAliasOf(const CPURegister& other) const {
- VIXL_ASSERT(IsValid());
- return (type_ == other.type()) && ((other.Bit() & list_) != 0);
- }
-
- bool IncludesAliasOf(int code) const {
- VIXL_ASSERT(IsValid());
- return ((code & list_) != 0);
- }
-
- int Count() const {
- VIXL_ASSERT(IsValid());
- return CountSetBits(list_, kRegListSizeInBits);
- }
-
- unsigned RegisterSizeInBits() const {
- VIXL_ASSERT(IsValid());
- return size_;
- }
-
- unsigned RegisterSizeInBytes() const {
- int size_in_bits = RegisterSizeInBits();
- VIXL_ASSERT((size_in_bits % 8) == 0);
- return size_in_bits / 8;
- }
-
- unsigned TotalSizeInBytes() const {
- VIXL_ASSERT(IsValid());
- return RegisterSizeInBytes() * Count();
- }
-
- private:
- RegList list_;
- unsigned size_;
- CPURegister::RegisterType type_;
-
- bool IsValid() const;
-};
-
-
-// AAPCS64 callee-saved registers.
-extern const CPURegList kCalleeSaved;
-extern const CPURegList kCalleeSavedFP;
-
-
-// AAPCS64 caller-saved registers. Note that this includes lr.
-extern const CPURegList kCallerSaved;
-extern const CPURegList kCallerSavedFP;
-
-
-// Operand.
-class Operand {
- public:
- // #<immediate>
- // where <immediate> is int64_t.
- // This is allowed to be an implicit constructor because Operand is
- // a wrapper class that doesn't normally perform any type conversion.
- Operand(int64_t immediate); // NOLINT(runtime/explicit)
-
- // rm, {<shift> #<shift_amount>}
- // where <shift> is one of {LSL, LSR, ASR, ROR}.
- // <shift_amount> is uint6_t.
- // This is allowed to be an implicit constructor because Operand is
- // a wrapper class that doesn't normally perform any type conversion.
- Operand(Register reg,
- Shift shift = LSL,
- unsigned shift_amount = 0); // NOLINT(runtime/explicit)
-
- // rm, {<extend> {#<shift_amount>}}
- // where <extend> is one of {UXTB, UXTH, UXTW, UXTX, SXTB, SXTH, SXTW, SXTX}.
- // <shift_amount> is uint2_t.
- explicit Operand(Register reg, Extend extend, unsigned shift_amount = 0);
-
- bool IsImmediate() const;
- bool IsShiftedRegister() const;
- bool IsExtendedRegister() const;
- bool IsZero() const;
-
- // This returns an LSL shift (<= 4) operand as an equivalent extend operand,
- // which helps in the encoding of instructions that use the stack pointer.
- Operand ToExtendedRegister() const;
-
- int64_t immediate() const {
- VIXL_ASSERT(IsImmediate());
- return immediate_;
- }
-
- Register reg() const {
- VIXL_ASSERT(IsShiftedRegister() || IsExtendedRegister());
- return reg_;
- }
-
- Shift shift() const {
- VIXL_ASSERT(IsShiftedRegister());
- return shift_;
- }
-
- Extend extend() const {
- VIXL_ASSERT(IsExtendedRegister());
- return extend_;
- }
-
- unsigned shift_amount() const {
- VIXL_ASSERT(IsShiftedRegister() || IsExtendedRegister());
- return shift_amount_;
- }
-
- private:
- int64_t immediate_;
- Register reg_;
- Shift shift_;
- Extend extend_;
- unsigned shift_amount_;
-};
-
-
-// MemOperand represents the addressing mode of a load or store instruction.
-class MemOperand {
- public:
- explicit MemOperand(Register base,
- int64_t offset = 0,
- AddrMode addrmode = Offset);
- explicit MemOperand(Register base,
- Register regoffset,
- Shift shift = LSL,
- unsigned shift_amount = 0);
- explicit MemOperand(Register base,
- Register regoffset,
- Extend extend,
- unsigned shift_amount = 0);
- explicit MemOperand(Register base,
- const Operand& offset,
- AddrMode addrmode = Offset);
-
- const Register& base() const { return base_; }
- const Register& regoffset() const { return regoffset_; }
- int64_t offset() const { return offset_; }
- AddrMode addrmode() const { return addrmode_; }
- Shift shift() const { return shift_; }
- Extend extend() const { return extend_; }
- unsigned shift_amount() const { return shift_amount_; }
- bool IsImmediateOffset() const;
- bool IsRegisterOffset() const;
- bool IsPreIndex() const;
- bool IsPostIndex() const;
-
- private:
- Register base_;
- Register regoffset_;
- int64_t offset_;
- AddrMode addrmode_;
- Shift shift_;
- Extend extend_;
- unsigned shift_amount_;
-};
-
-
-class Label {
- public:
- Label() : location_(kLocationUnbound) {}
- ~Label() {
- // If the label has been linked to, it needs to be bound to a target.
- VIXL_ASSERT(!IsLinked() || IsBound());
- }
-
- bool IsBound() const { return location_ >= 0; }
- bool IsLinked() const { return !links_.empty(); }
-
- ptrdiff_t location() const { return location_; }
-
- private:
- // The list of linked instructions is stored in a stack-like structure. We
- // don't use std::stack directly because it's slow for the common case where
- // only one or two instructions refer to a label, and labels themselves are
- // short-lived. This class behaves like std::stack, but the first few links
- // are preallocated (configured by kPreallocatedLinks).
- //
- // If more than N links are required, this falls back to std::stack.
- class LinksStack {
- public:
- LinksStack() : size_(0), links_extended_(NULL) {}
- ~LinksStack() {
- delete links_extended_;
- }
-
- size_t size() const {
- return size_;
- }
-
- bool empty() const {
- return size_ == 0;
- }
-
- void push(ptrdiff_t value) {
- if (size_ < kPreallocatedLinks) {
- links_[size_] = value;
- } else {
- if (links_extended_ == NULL) {
- links_extended_ = new std::stack<ptrdiff_t>();
- }
- VIXL_ASSERT(size_ == (links_extended_->size() + kPreallocatedLinks));
- links_extended_->push(value);
- }
- size_++;
- }
-
- ptrdiff_t top() const {
- return (size_ <= kPreallocatedLinks) ? links_[size_ - 1]
- : links_extended_->top();
- }
-
- void pop() {
- size_--;
- if (size_ >= kPreallocatedLinks) {
- links_extended_->pop();
- VIXL_ASSERT(size_ == (links_extended_->size() + kPreallocatedLinks));
- }
- }
-
- private:
- static const size_t kPreallocatedLinks = 4;
-
- size_t size_;
- ptrdiff_t links_[kPreallocatedLinks];
- std::stack<ptrdiff_t> * links_extended_;
- };
-
- void Bind(ptrdiff_t location) {
- // Labels can only be bound once.
- VIXL_ASSERT(!IsBound());
- location_ = location;
- }
-
- void AddLink(ptrdiff_t instruction) {
- // If a label is bound, the assembler already has the information it needs
- // to write the instruction, so there is no need to add it to links_.
- VIXL_ASSERT(!IsBound());
- links_.push(instruction);
- }
-
- ptrdiff_t GetAndRemoveNextLink() {
- VIXL_ASSERT(IsLinked());
- ptrdiff_t link = links_.top();
- links_.pop();
- return link;
- }
-
- // The offsets of the instructions that have linked to this label.
- LinksStack links_;
- // The label location.
- ptrdiff_t location_;
-
- static const ptrdiff_t kLocationUnbound = -1;
-
- // It is not safe to copy labels, so disable the copy constructor by declaring
- // it private (without an implementation).
- Label(const Label&);
-
- // The Assembler class is responsible for binding and linking labels, since
- // the stored offsets need to be consistent with the Assembler's buffer.
- friend class Assembler;
-};
-
-
-// A literal is a 32-bit or 64-bit piece of data stored in the instruction
-// stream and loaded through a pc relative load. The same literal can be
-// referred to by multiple instructions but a literal can only reside at one
-// place in memory. A literal can be used by a load before or after being
-// placed in memory.
-//
-// Internally an offset of 0 is associated with a literal which has been
-// neither used nor placed. Then two possibilities arise:
-// 1) the label is placed, the offset (stored as offset + 1) is used to
-// resolve any subsequent load using the label.
-// 2) the label is not placed and offset is the offset of the last load using
-// the literal (stored as -offset -1). If multiple loads refer to this
-// literal then the last load holds the offset of the preceding load and
-// all loads form a chain. Once the offset is placed all the loads in the
-// chain are resolved and future loads fall back to possibility 1.
-class RawLiteral {
- public:
- RawLiteral() : size_(0), offset_(0), raw_value_(0) {}
-
- size_t size() {
- VIXL_STATIC_ASSERT(kDRegSizeInBytes == kXRegSizeInBytes);
- VIXL_STATIC_ASSERT(kSRegSizeInBytes == kWRegSizeInBytes);
- VIXL_ASSERT((size_ == kXRegSizeInBytes) || (size_ == kWRegSizeInBytes));
- return size_;
- }
- uint64_t raw_value64() {
- VIXL_ASSERT(size_ == kXRegSizeInBytes);
- return raw_value_;
- }
- uint32_t raw_value32() {
- VIXL_ASSERT(size_ == kWRegSizeInBytes);
- VIXL_ASSERT(is_uint32(raw_value_) || is_int32(raw_value_));
- return static_cast<uint32_t>(raw_value_);
- }
- bool IsUsed() { return offset_ < 0; }
- bool IsPlaced() { return offset_ > 0; }
-
- protected:
- ptrdiff_t offset() {
- VIXL_ASSERT(IsPlaced());
- return offset_ - 1;
- }
- void set_offset(ptrdiff_t offset) {
- VIXL_ASSERT(offset >= 0);
- VIXL_ASSERT(IsWordAligned(offset));
- VIXL_ASSERT(!IsPlaced());
- offset_ = offset + 1;
- }
- ptrdiff_t last_use() {
- VIXL_ASSERT(IsUsed());
- return -offset_ - 1;
- }
- void set_last_use(ptrdiff_t offset) {
- VIXL_ASSERT(offset >= 0);
- VIXL_ASSERT(IsWordAligned(offset));
- VIXL_ASSERT(!IsPlaced());
- offset_ = -offset - 1;
- }
-
- size_t size_;
- ptrdiff_t offset_;
- uint64_t raw_value_;
-
- friend class Assembler;
-};
-
-
-template <typename T>
-class Literal : public RawLiteral {
- public:
- explicit Literal(T value) {
- size_ = sizeof(value);
- memcpy(&raw_value_, &value, sizeof(value));
- }
-};
-
-
-// Control whether or not position-independent code should be emitted.
-enum PositionIndependentCodeOption {
- // All code generated will be position-independent; all branches and
- // references to labels generated with the Label class will use PC-relative
- // addressing.
- PositionIndependentCode,
-
- // Allow VIXL to generate code that refers to absolute addresses. With this
- // option, it will not be possible to copy the code buffer and run it from a
- // different address; code must be generated in its final location.
- PositionDependentCode,
-
- // Allow VIXL to assume that the bottom 12 bits of the address will be
- // constant, but that the top 48 bits may change. This allows `adrp` to
- // function in systems which copy code between pages, but otherwise maintain
- // 4KB page alignment.
- PageOffsetDependentCode
-};
-
-
-// Control how scaled- and unscaled-offset loads and stores are generated.
-enum LoadStoreScalingOption {
- // Prefer scaled-immediate-offset instructions, but emit unscaled-offset,
- // register-offset, pre-index or post-index instructions if necessary.
- PreferScaledOffset,
-
- // Prefer unscaled-immediate-offset instructions, but emit scaled-offset,
- // register-offset, pre-index or post-index instructions if necessary.
- PreferUnscaledOffset,
-
- // Require scaled-immediate-offset instructions.
- RequireScaledOffset,
-
- // Require unscaled-immediate-offset instructions.
- RequireUnscaledOffset
-};
-
-
-// Assembler.
-class Assembler {
- public:
- Assembler(size_t capacity,
- PositionIndependentCodeOption pic = PositionIndependentCode);
- Assembler(byte* buffer, size_t capacity,
- PositionIndependentCodeOption pic = PositionIndependentCode);
-
- // The destructor asserts that one of the following is true:
- // * The Assembler object has not been used.
- // * Nothing has been emitted since the last Reset() call.
- // * Nothing has been emitted since the last FinalizeCode() call.
- ~Assembler();
-
- // System functions.
-
- // Start generating code from the beginning of the buffer, discarding any code
- // and data that has already been emitted into the buffer.
- void Reset();
-
- // Finalize a code buffer of generated instructions. This function must be
- // called before executing or copying code from the buffer.
- void FinalizeCode();
-
- // Label.
- // Bind a label to the current PC.
- void bind(Label* label);
-
- // Bind a label to a specified offset from the start of the buffer.
- void BindToOffset(Label* label, ptrdiff_t offset);
-
- // Place a literal at the current PC.
- void place(RawLiteral* literal);
-
- ptrdiff_t CursorOffset() const {
- return buffer_->CursorOffset();
- }
-
- ptrdiff_t BufferEndOffset() const {
- return static_cast<ptrdiff_t>(buffer_->capacity());
- }
-
- // Return the address of an offset in the buffer.
- template <typename T>
- T GetOffsetAddress(ptrdiff_t offset) {
- VIXL_STATIC_ASSERT(sizeof(T) >= sizeof(uintptr_t));
- return buffer_->GetOffsetAddress<T>(offset);
- }
-
- // Return the address of a bound label.
- template <typename T>
- T GetLabelAddress(const Label * label) {
- VIXL_ASSERT(label->IsBound());
- VIXL_STATIC_ASSERT(sizeof(T) >= sizeof(uintptr_t));
- return GetOffsetAddress<T>(label->location());
- }
-
- // Return the address of the cursor.
- template <typename T>
- T GetCursorAddress() {
- VIXL_STATIC_ASSERT(sizeof(T) >= sizeof(uintptr_t));
- return GetOffsetAddress<T>(CursorOffset());
- }
-
- // Return the address of the start of the buffer.
- template <typename T>
- T GetStartAddress() {
- VIXL_STATIC_ASSERT(sizeof(T) >= sizeof(uintptr_t));
- return GetOffsetAddress<T>(0);
- }
-
- // Instruction set functions.
-
- // Branch / Jump instructions.
- // Branch to register.
- void br(const Register& xn);
-
- // Branch with link to register.
- void blr(const Register& xn);
-
- // Branch to register with return hint.
- void ret(const Register& xn = lr);
-
- // Unconditional branch to label.
- void b(Label* label);
-
- // Conditional branch to label.
- void b(Label* label, Condition cond);
-
- // Unconditional branch to PC offset.
- void b(int imm26);
-
- // Conditional branch to PC offset.
- void b(int imm19, Condition cond);
-
- // Branch with link to label.
- void bl(Label* label);
-
- // Branch with link to PC offset.
- void bl(int imm26);
-
- // Compare and branch to label if zero.
- void cbz(const Register& rt, Label* label);
-
- // Compare and branch to PC offset if zero.
- void cbz(const Register& rt, int imm19);
-
- // Compare and branch to label if not zero.
- void cbnz(const Register& rt, Label* label);
-
- // Compare and branch to PC offset if not zero.
- void cbnz(const Register& rt, int imm19);
-
- // Test bit and branch to label if zero.
- void tbz(const Register& rt, unsigned bit_pos, Label* label);
-
- // Test bit and branch to PC offset if zero.
- void tbz(const Register& rt, unsigned bit_pos, int imm14);
-
- // Test bit and branch to label if not zero.
- void tbnz(const Register& rt, unsigned bit_pos, Label* label);
-
- // Test bit and branch to PC offset if not zero.
- void tbnz(const Register& rt, unsigned bit_pos, int imm14);
-
- // Address calculation instructions.
- // Calculate a PC-relative address. Unlike for branches the offset in adr is
- // unscaled (i.e. the result can be unaligned).
-
- // Calculate the address of a label.
- void adr(const Register& rd, Label* label);
-
- // Calculate the address of a PC offset.
- void adr(const Register& rd, int imm21);
-
- // Calculate the page address of a label.
- void adrp(const Register& rd, Label* label);
-
- // Calculate the page address of a PC offset.
- void adrp(const Register& rd, int imm21);
-
- // Data Processing instructions.
- // Add.
- void add(const Register& rd,
- const Register& rn,
- const Operand& operand);
-
- // Add and update status flags.
- void adds(const Register& rd,
- const Register& rn,
- const Operand& operand);
-
- // Compare negative.
- void cmn(const Register& rn, const Operand& operand);
-
- // Subtract.
- void sub(const Register& rd,
- const Register& rn,
- const Operand& operand);
-
- // Subtract and update status flags.
- void subs(const Register& rd,
- const Register& rn,
- const Operand& operand);
-
- // Compare.
- void cmp(const Register& rn, const Operand& operand);
-
- // Negate.
- void neg(const Register& rd,
- const Operand& operand);
-
- // Negate and update status flags.
- void negs(const Register& rd,
- const Operand& operand);
-
- // Add with carry bit.
- void adc(const Register& rd,
- const Register& rn,
- const Operand& operand);
-
- // Add with carry bit and update status flags.
- void adcs(const Register& rd,
- const Register& rn,
- const Operand& operand);
-
- // Subtract with carry bit.
- void sbc(const Register& rd,
- const Register& rn,
- const Operand& operand);
-
- // Subtract with carry bit and update status flags.
- void sbcs(const Register& rd,
- const Register& rn,
- const Operand& operand);
-
- // Negate with carry bit.
- void ngc(const Register& rd,
- const Operand& operand);
-
- // Negate with carry bit and update status flags.
- void ngcs(const Register& rd,
- const Operand& operand);
-
- // Logical instructions.
- // Bitwise and (A & B).
- void and_(const Register& rd,
- const Register& rn,
- const Operand& operand);
-
- // Bitwise and (A & B) and update status flags.
- void ands(const Register& rd,
- const Register& rn,
- const Operand& operand);
-
- // Bit test and set flags.
- void tst(const Register& rn, const Operand& operand);
-
- // Bit clear (A & ~B).
- void bic(const Register& rd,
- const Register& rn,
- const Operand& operand);
-
- // Bit clear (A & ~B) and update status flags.
- void bics(const Register& rd,
- const Register& rn,
- const Operand& operand);
-
- // Bitwise or (A | B).
- void orr(const Register& rd, const Register& rn, const Operand& operand);
-
- // Bitwise nor (A | ~B).
- void orn(const Register& rd, const Register& rn, const Operand& operand);
-
- // Bitwise eor/xor (A ^ B).
- void eor(const Register& rd, const Register& rn, const Operand& operand);
-
- // Bitwise enor/xnor (A ^ ~B).
- void eon(const Register& rd, const Register& rn, const Operand& operand);
-
- // Logical shift left by variable.
- void lslv(const Register& rd, const Register& rn, const Register& rm);
-
- // Logical shift right by variable.
- void lsrv(const Register& rd, const Register& rn, const Register& rm);
-
- // Arithmetic shift right by variable.
- void asrv(const Register& rd, const Register& rn, const Register& rm);
-
- // Rotate right by variable.
- void rorv(const Register& rd, const Register& rn, const Register& rm);
-
- // Bitfield instructions.
- // Bitfield move.
- void bfm(const Register& rd,
- const Register& rn,
- unsigned immr,
- unsigned imms);
-
- // Signed bitfield move.
- void sbfm(const Register& rd,
- const Register& rn,
- unsigned immr,
- unsigned imms);
-
- // Unsigned bitfield move.
- void ubfm(const Register& rd,
- const Register& rn,
- unsigned immr,
- unsigned imms);
-
- // Bfm aliases.
- // Bitfield insert.
- void bfi(const Register& rd,
- const Register& rn,
- unsigned lsb,
- unsigned width) {
- VIXL_ASSERT(width >= 1);
- VIXL_ASSERT(lsb + width <= rn.size());
- bfm(rd, rn, (rd.size() - lsb) & (rd.size() - 1), width - 1);
- }
-
- // Bitfield extract and insert low.
- void bfxil(const Register& rd,
- const Register& rn,
- unsigned lsb,
- unsigned width) {
- VIXL_ASSERT(width >= 1);
- VIXL_ASSERT(lsb + width <= rn.size());
- bfm(rd, rn, lsb, lsb + width - 1);
- }
-
- // Sbfm aliases.
- // Arithmetic shift right.
- void asr(const Register& rd, const Register& rn, unsigned shift) {
- VIXL_ASSERT(shift < rd.size());
- sbfm(rd, rn, shift, rd.size() - 1);
- }
-
- // Signed bitfield insert with zero at right.
- void sbfiz(const Register& rd,
- const Register& rn,
- unsigned lsb,
- unsigned width) {
- VIXL_ASSERT(width >= 1);
- VIXL_ASSERT(lsb + width <= rn.size());
- sbfm(rd, rn, (rd.size() - lsb) & (rd.size() - 1), width - 1);
- }
-
- // Signed bitfield extract.
- void sbfx(const Register& rd,
- const Register& rn,
- unsigned lsb,
- unsigned width) {
- VIXL_ASSERT(width >= 1);
- VIXL_ASSERT(lsb + width <= rn.size());
- sbfm(rd, rn, lsb, lsb + width - 1);
- }
-
- // Signed extend byte.
- void sxtb(const Register& rd, const Register& rn) {
- sbfm(rd, rn, 0, 7);
- }
-
- // Signed extend halfword.
- void sxth(const Register& rd, const Register& rn) {
- sbfm(rd, rn, 0, 15);
- }
-
- // Signed extend word.
- void sxtw(const Register& rd, const Register& rn) {
- sbfm(rd, rn, 0, 31);
- }
-
- // Ubfm aliases.
- // Logical shift left.
- void lsl(const Register& rd, const Register& rn, unsigned shift) {
- unsigned reg_size = rd.size();
- VIXL_ASSERT(shift < reg_size);
- ubfm(rd, rn, (reg_size - shift) % reg_size, reg_size - shift - 1);
- }
-
- // Logical shift right.
- void lsr(const Register& rd, const Register& rn, unsigned shift) {
- VIXL_ASSERT(shift < rd.size());
- ubfm(rd, rn, shift, rd.size() - 1);
- }
-
- // Unsigned bitfield insert with zero at right.
- void ubfiz(const Register& rd,
- const Register& rn,
- unsigned lsb,
- unsigned width) {
- VIXL_ASSERT(width >= 1);
- VIXL_ASSERT(lsb + width <= rn.size());
- ubfm(rd, rn, (rd.size() - lsb) & (rd.size() - 1), width - 1);
- }
-
- // Unsigned bitfield extract.
- void ubfx(const Register& rd,
- const Register& rn,
- unsigned lsb,
- unsigned width) {
- VIXL_ASSERT(width >= 1);
- VIXL_ASSERT(lsb + width <= rn.size());
- ubfm(rd, rn, lsb, lsb + width - 1);
- }
-
- // Unsigned extend byte.
- void uxtb(const Register& rd, const Register& rn) {
- ubfm(rd, rn, 0, 7);
- }
-
- // Unsigned extend halfword.
- void uxth(const Register& rd, const Register& rn) {
- ubfm(rd, rn, 0, 15);
- }
-
- // Unsigned extend word.
- void uxtw(const Register& rd, const Register& rn) {
- ubfm(rd, rn, 0, 31);
- }
-
- // Extract.
- void extr(const Register& rd,
- const Register& rn,
- const Register& rm,
- unsigned lsb);
-
- // Conditional select: rd = cond ? rn : rm.
- void csel(const Register& rd,
- const Register& rn,
- const Register& rm,
- Condition cond);
-
- // Conditional select increment: rd = cond ? rn : rm + 1.
- void csinc(const Register& rd,
- const Register& rn,
- const Register& rm,
- Condition cond);
-
- // Conditional select inversion: rd = cond ? rn : ~rm.
- void csinv(const Register& rd,
- const Register& rn,
- const Register& rm,
- Condition cond);
-
- // Conditional select negation: rd = cond ? rn : -rm.
- void csneg(const Register& rd,
- const Register& rn,
- const Register& rm,
- Condition cond);
-
- // Conditional set: rd = cond ? 1 : 0.
- void cset(const Register& rd, Condition cond);
-
- // Conditional set mask: rd = cond ? -1 : 0.
- void csetm(const Register& rd, Condition cond);
-
- // Conditional increment: rd = cond ? rn + 1 : rn.
- void cinc(const Register& rd, const Register& rn, Condition cond);
-
- // Conditional invert: rd = cond ? ~rn : rn.
- void cinv(const Register& rd, const Register& rn, Condition cond);
-
- // Conditional negate: rd = cond ? -rn : rn.
- void cneg(const Register& rd, const Register& rn, Condition cond);
-
- // Rotate right.
- void ror(const Register& rd, const Register& rs, unsigned shift) {
- extr(rd, rs, rs, shift);
- }
-
- // Conditional comparison.
- // Conditional compare negative.
- void ccmn(const Register& rn,
- const Operand& operand,
- StatusFlags nzcv,
- Condition cond);
-
- // Conditional compare.
- void ccmp(const Register& rn,
- const Operand& operand,
- StatusFlags nzcv,
- Condition cond);
-
- // Multiply.
- void mul(const Register& rd, const Register& rn, const Register& rm);
-
- // Negated multiply.
- void mneg(const Register& rd, const Register& rn, const Register& rm);
-
- // Signed long multiply: 32 x 32 -> 64-bit.
- void smull(const Register& rd, const Register& rn, const Register& rm);
-
- // Signed multiply high: 64 x 64 -> 64-bit <127:64>.
- void smulh(const Register& xd, const Register& xn, const Register& xm);
-
- // Multiply and accumulate.
- void madd(const Register& rd,
- const Register& rn,
- const Register& rm,
- const Register& ra);
-
- // Multiply and subtract.
- void msub(const Register& rd,
- const Register& rn,
- const Register& rm,
- const Register& ra);
-
- // Signed long multiply and accumulate: 32 x 32 + 64 -> 64-bit.
- void smaddl(const Register& rd,
- const Register& rn,
- const Register& rm,
- const Register& ra);
-
- // Unsigned long multiply and accumulate: 32 x 32 + 64 -> 64-bit.
- void umaddl(const Register& rd,
- const Register& rn,
- const Register& rm,
- const Register& ra);
-
- // Signed long multiply and subtract: 64 - (32 x 32) -> 64-bit.
- void smsubl(const Register& rd,
- const Register& rn,
- const Register& rm,
- const Register& ra);
-
- // Unsigned long multiply and subtract: 64 - (32 x 32) -> 64-bit.
- void umsubl(const Register& rd,
- const Register& rn,
- const Register& rm,
- const Register& ra);
-
- // Signed integer divide.
- void sdiv(const Register& rd, const Register& rn, const Register& rm);
-
- // Unsigned integer divide.
- void udiv(const Register& rd, const Register& rn, const Register& rm);
-
- // Bit reverse.
- void rbit(const Register& rd, const Register& rn);
-
- // Reverse bytes in 16-bit half words.
- void rev16(const Register& rd, const Register& rn);
-
- // Reverse bytes in 32-bit words.
- void rev32(const Register& rd, const Register& rn);
-
- // Reverse bytes.
- void rev(const Register& rd, const Register& rn);
-
- // Count leading zeroes.
- void clz(const Register& rd, const Register& rn);
-
- // Count leading sign bits.
- void cls(const Register& rd, const Register& rn);
-
- // Memory instructions.
- // Load integer or FP register.
- void ldr(const CPURegister& rt, const MemOperand& src,
- LoadStoreScalingOption option = PreferScaledOffset);
-
- // Store integer or FP register.
- void str(const CPURegister& rt, const MemOperand& dst,
- LoadStoreScalingOption option = PreferScaledOffset);
-
- // Load word with sign extension.
- void ldrsw(const Register& rt, const MemOperand& src,
- LoadStoreScalingOption option = PreferScaledOffset);
-
- // Load byte.
- void ldrb(const Register& rt, const MemOperand& src,
- LoadStoreScalingOption option = PreferScaledOffset);
-
- // Store byte.
- void strb(const Register& rt, const MemOperand& dst,
- LoadStoreScalingOption option = PreferScaledOffset);
-
- // Load byte with sign extension.
- void ldrsb(const Register& rt, const MemOperand& src,
- LoadStoreScalingOption option = PreferScaledOffset);
-
- // Load half-word.
- void ldrh(const Register& rt, const MemOperand& src,
- LoadStoreScalingOption option = PreferScaledOffset);
-
- // Store half-word.
- void strh(const Register& rt, const MemOperand& dst,
- LoadStoreScalingOption option = PreferScaledOffset);
-
- // Load half-word with sign extension.
- void ldrsh(const Register& rt, const MemOperand& src,
- LoadStoreScalingOption option = PreferScaledOffset);
-
- // Load integer or FP register (with unscaled offset).
- void ldur(const CPURegister& rt, const MemOperand& src,
- LoadStoreScalingOption option = PreferUnscaledOffset);
-
- // Store integer or FP register (with unscaled offset).
- void stur(const CPURegister& rt, const MemOperand& src,
- LoadStoreScalingOption option = PreferUnscaledOffset);
-
- // Load word with sign extension.
- void ldursw(const Register& rt, const MemOperand& src,
- LoadStoreScalingOption option = PreferUnscaledOffset);
-
- // Load byte (with unscaled offset).
- void ldurb(const Register& rt, const MemOperand& src,
- LoadStoreScalingOption option = PreferUnscaledOffset);
-
- // Store byte (with unscaled offset).
- void sturb(const Register& rt, const MemOperand& dst,
- LoadStoreScalingOption option = PreferUnscaledOffset);
-
- // Load byte with sign extension (and unscaled offset).
- void ldursb(const Register& rt, const MemOperand& src,
- LoadStoreScalingOption option = PreferUnscaledOffset);
-
- // Load half-word (with unscaled offset).
- void ldurh(const Register& rt, const MemOperand& src,
- LoadStoreScalingOption option = PreferUnscaledOffset);
-
- // Store half-word (with unscaled offset).
- void sturh(const Register& rt, const MemOperand& dst,
- LoadStoreScalingOption option = PreferUnscaledOffset);
-
- // Load half-word with sign extension (and unscaled offset).
- void ldursh(const Register& rt, const MemOperand& src,
- LoadStoreScalingOption option = PreferUnscaledOffset);
-
- // Load integer or FP register pair.
- void ldp(const CPURegister& rt, const CPURegister& rt2,
- const MemOperand& src);
-
- // Store integer or FP register pair.
- void stp(const CPURegister& rt, const CPURegister& rt2,
- const MemOperand& dst);
-
- // Load word pair with sign extension.
- void ldpsw(const Register& rt, const Register& rt2, const MemOperand& src);
-
- // Load integer or FP register pair, non-temporal.
- void ldnp(const CPURegister& rt, const CPURegister& rt2,
- const MemOperand& src);
-
- // Store integer or FP register pair, non-temporal.
- void stnp(const CPURegister& rt, const CPURegister& rt2,
- const MemOperand& dst);
-
- // Load integer or FP register from literal pool.
- void ldr(const CPURegister& rt, RawLiteral* literal);
-
- // Load word with sign extension from literal pool.
- void ldrsw(const Register& rt, RawLiteral* literal);
-
- // Load integer or FP register from pc + imm19 << 2.
- void ldr(const CPURegister& rt, int imm19);
-
- // Load word with sign extension from pc + imm19 << 2.
- void ldrsw(const Register& rt, int imm19);
-
- // Store exclusive byte.
- void stxrb(const Register& rs, const Register& rt, const MemOperand& dst);
-
- // Store exclusive half-word.
- void stxrh(const Register& rs, const Register& rt, const MemOperand& dst);
-
- // Store exclusive register.
- void stxr(const Register& rs, const Register& rt, const MemOperand& dst);
-
- // Load exclusive byte.
- void ldxrb(const Register& rt, const MemOperand& src);
-
- // Load exclusive half-word.
- void ldxrh(const Register& rt, const MemOperand& src);
-
- // Load exclusive register.
- void ldxr(const Register& rt, const MemOperand& src);
-
- // Store exclusive register pair.
- void stxp(const Register& rs,
- const Register& rt,
- const Register& rt2,
- const MemOperand& dst);
-
- // Load exclusive register pair.
- void ldxp(const Register& rt, const Register& rt2, const MemOperand& src);
-
- // Store-release exclusive byte.
- void stlxrb(const Register& rs, const Register& rt, const MemOperand& dst);
-
- // Store-release exclusive half-word.
- void stlxrh(const Register& rs, const Register& rt, const MemOperand& dst);
-
- // Store-release exclusive register.
- void stlxr(const Register& rs, const Register& rt, const MemOperand& dst);
-
- // Load-acquire exclusive byte.
- void ldaxrb(const Register& rt, const MemOperand& src);
-
- // Load-acquire exclusive half-word.
- void ldaxrh(const Register& rt, const MemOperand& src);
-
- // Load-acquire exclusive register.
- void ldaxr(const Register& rt, const MemOperand& src);
-
- // Store-release exclusive register pair.
- void stlxp(const Register& rs,
- const Register& rt,
- const Register& rt2,
- const MemOperand& dst);
-
- // Load-acquire exclusive register pair.
- void ldaxp(const Register& rt, const Register& rt2, const MemOperand& src);
-
- // Store-release byte.
- void stlrb(const Register& rt, const MemOperand& dst);
-
- // Store-release half-word.
- void stlrh(const Register& rt, const MemOperand& dst);
-
- // Store-release register.
- void stlr(const Register& rt, const MemOperand& dst);
-
- // Load-acquire byte.
- void ldarb(const Register& rt, const MemOperand& src);
-
- // Load-acquire half-word.
- void ldarh(const Register& rt, const MemOperand& src);
-
- // Load-acquire register.
- void ldar(const Register& rt, const MemOperand& src);
-
- // Prefetch memory.
- void prfm(PrefetchOperation op, const MemOperand& addr,
- LoadStoreScalingOption option = PreferScaledOffset);
-
- // Prefetch memory (with unscaled offset).
- void prfum(PrefetchOperation op, const MemOperand& addr,
- LoadStoreScalingOption option = PreferUnscaledOffset);
-
- // Prefetch memory in the literal pool.
- void prfm(PrefetchOperation op, RawLiteral* literal);
-
- // Prefetch from pc + imm19 << 2.
- void prfm(PrefetchOperation op, int imm19);
-
- // Move instructions. The default shift of -1 indicates that the move
- // instruction will calculate an appropriate 16-bit immediate and left shift
- // that is equal to the 64-bit immediate argument. If an explicit left shift
- // is specified (0, 16, 32 or 48), the immediate must be a 16-bit value.
- //
- // For movk, an explicit shift can be used to indicate which half word should
- // be overwritten, eg. movk(x0, 0, 0) will overwrite the least-significant
- // half word with zero, whereas movk(x0, 0, 48) will overwrite the
- // most-significant.
-
- // Move immediate and keep.
- void movk(const Register& rd, uint64_t imm, int shift = -1) {
- MoveWide(rd, imm, shift, MOVK);
- }
-
- // Move inverted immediate.
- void movn(const Register& rd, uint64_t imm, int shift = -1) {
- MoveWide(rd, imm, shift, MOVN);
- }
-
- // Move immediate.
- void movz(const Register& rd, uint64_t imm, int shift = -1) {
- MoveWide(rd, imm, shift, MOVZ);
- }
-
- // Misc instructions.
- // Monitor debug-mode breakpoint.
- void brk(int code);
-
- // Halting debug-mode breakpoint.
- void hlt(int code);
-
- // Move register to register.
- void mov(const Register& rd, const Register& rn);
-
- // Move inverted operand to register.
- void mvn(const Register& rd, const Operand& operand);
-
- // System instructions.
- // Move to register from system register.
- void mrs(const Register& rt, SystemRegister sysreg);
-
- // Move from register to system register.
- void msr(SystemRegister sysreg, const Register& rt);
-
- // System hint.
- void hint(SystemHint code);
-
- // Clear exclusive monitor.
- void clrex(int imm4 = 0xf);
-
- // Data memory barrier.
- void dmb(BarrierDomain domain, BarrierType type);
-
- // Data synchronization barrier.
- void dsb(BarrierDomain domain, BarrierType type);
-
- // Instruction synchronization barrier.
- void isb();
-
- // Alias for system instructions.
- // No-op.
- void nop() {
- hint(NOP);
- }
-
- // FP instructions.
- // Move double precision immediate to FP register.
- void fmov(const FPRegister& fd, double imm);
-
- // Move single precision immediate to FP register.
- void fmov(const FPRegister& fd, float imm);
-
- // Move FP register to register.
- void fmov(const Register& rd, const FPRegister& fn);
-
- // Move register to FP register.
- void fmov(const FPRegister& fd, const Register& rn);
-
- // Move FP register to FP register.
- void fmov(const FPRegister& fd, const FPRegister& fn);
-
- // FP add.
- void fadd(const FPRegister& fd, const FPRegister& fn, const FPRegister& fm);
-
- // FP subtract.
- void fsub(const FPRegister& fd, const FPRegister& fn, const FPRegister& fm);
-
- // FP multiply.
- void fmul(const FPRegister& fd, const FPRegister& fn, const FPRegister& fm);
-
- // FP fused multiply and add.
- void fmadd(const FPRegister& fd,
- const FPRegister& fn,
- const FPRegister& fm,
- const FPRegister& fa);
-
- // FP fused multiply and subtract.
- void fmsub(const FPRegister& fd,
- const FPRegister& fn,
- const FPRegister& fm,
- const FPRegister& fa);
-
- // FP fused multiply, add and negate.
- void fnmadd(const FPRegister& fd,
- const FPRegister& fn,
- const FPRegister& fm,
- const FPRegister& fa);
-
- // FP fused multiply, subtract and negate.
- void fnmsub(const FPRegister& fd,
- const FPRegister& fn,
- const FPRegister& fm,
- const FPRegister& fa);
-
- // FP divide.
- void fdiv(const FPRegister& fd, const FPRegister& fn, const FPRegister& fm);
-
- // FP maximum.
- void fmax(const FPRegister& fd, const FPRegister& fn, const FPRegister& fm);
-
- // FP minimum.
- void fmin(const FPRegister& fd, const FPRegister& fn, const FPRegister& fm);
-
- // FP maximum number.
- void fmaxnm(const FPRegister& fd, const FPRegister& fn, const FPRegister& fm);
-
- // FP minimum number.
- void fminnm(const FPRegister& fd, const FPRegister& fn, const FPRegister& fm);
-
- // FP absolute.
- void fabs(const FPRegister& fd, const FPRegister& fn);
-
- // FP negate.
- void fneg(const FPRegister& fd, const FPRegister& fn);
-
- // FP square root.
- void fsqrt(const FPRegister& fd, const FPRegister& fn);
-
- // FP round to integer (nearest with ties to away).
- void frinta(const FPRegister& fd, const FPRegister& fn);
-
- // FP round to integer (implicit rounding).
- void frinti(const FPRegister& fd, const FPRegister& fn);
-
- // FP round to integer (toward minus infinity).
- void frintm(const FPRegister& fd, const FPRegister& fn);
-
- // FP round to integer (nearest with ties to even).
- void frintn(const FPRegister& fd, const FPRegister& fn);
-
- // FP round to integer (toward plus infinity).
- void frintp(const FPRegister& fd, const FPRegister& fn);
-
- // FP round to integer (exact, implicit rounding).
- void frintx(const FPRegister& fd, const FPRegister& fn);
-
- // FP round to integer (towards zero).
- void frintz(const FPRegister& fd, const FPRegister& fn);
-
- // FP compare registers.
- void fcmp(const FPRegister& fn, const FPRegister& fm);
-
- // FP compare immediate.
- void fcmp(const FPRegister& fn, double value);
-
- // FP conditional compare.
- void fccmp(const FPRegister& fn,
- const FPRegister& fm,
- StatusFlags nzcv,
- Condition cond);
-
- // FP conditional select.
- void fcsel(const FPRegister& fd,
- const FPRegister& fn,
- const FPRegister& fm,
- Condition cond);
-
- // Common FP Convert function.
- void FPConvertToInt(const Register& rd,
- const FPRegister& fn,
- FPIntegerConvertOp op);
-
- // FP convert between single and double precision.
- void fcvt(const FPRegister& fd, const FPRegister& fn);
-
- // Convert FP to signed integer (nearest with ties to away).
- void fcvtas(const Register& rd, const FPRegister& fn);
-
- // Convert FP to unsigned integer (nearest with ties to away).
- void fcvtau(const Register& rd, const FPRegister& fn);
-
- // Convert FP to signed integer (round towards -infinity).
- void fcvtms(const Register& rd, const FPRegister& fn);
-
- // Convert FP to unsigned integer (round towards -infinity).
- void fcvtmu(const Register& rd, const FPRegister& fn);
-
- // Convert FP to signed integer (nearest with ties to even).
- void fcvtns(const Register& rd, const FPRegister& fn);
-
- // Convert FP to unsigned integer (nearest with ties to even).
- void fcvtnu(const Register& rd, const FPRegister& fn);
-
- // Convert FP to signed integer (round towards zero).
- void fcvtzs(const Register& rd, const FPRegister& fn);
-
- // Convert FP to unsigned integer (round towards zero).
- void fcvtzu(const Register& rd, const FPRegister& fn);
-
- // Convert signed integer or fixed point to FP.
- void scvtf(const FPRegister& fd, const Register& rn, unsigned fbits = 0);
-
- // Convert unsigned integer or fixed point to FP.
- void ucvtf(const FPRegister& fd, const Register& rn, unsigned fbits = 0);
-
- // Emit generic instructions.
- // Emit raw instructions into the instruction stream.
- void dci(Instr raw_inst) { Emit(raw_inst); }
-
- // Emit 32 bits of data into the instruction stream.
- void dc32(uint32_t data) {
- VIXL_ASSERT(buffer_monitor_ > 0);
- buffer_->Emit32(data);
- }
-
- // Emit 64 bits of data into the instruction stream.
- void dc64(uint64_t data) {
- VIXL_ASSERT(buffer_monitor_ > 0);
- buffer_->Emit64(data);
- }
-
- // Copy a string into the instruction stream, including the terminating NULL
- // character. The instruction pointer is then aligned correctly for
- // subsequent instructions.
- void EmitString(const char * string) {
- VIXL_ASSERT(string != NULL);
- VIXL_ASSERT(buffer_monitor_ > 0);
-
- buffer_->EmitString(string);
- buffer_->Align();
- }
-
- // Code generation helpers.
-
- // Register encoding.
- static Instr Rd(CPURegister rd) {
- VIXL_ASSERT(rd.code() != kSPRegInternalCode);
- return rd.code() << Rd_offset;
- }
-
- static Instr Rn(CPURegister rn) {
- VIXL_ASSERT(rn.code() != kSPRegInternalCode);
- return rn.code() << Rn_offset;
- }
-
- static Instr Rm(CPURegister rm) {
- VIXL_ASSERT(rm.code() != kSPRegInternalCode);
- return rm.code() << Rm_offset;
- }
-
- static Instr Ra(CPURegister ra) {
- VIXL_ASSERT(ra.code() != kSPRegInternalCode);
- return ra.code() << Ra_offset;
- }
-
- static Instr Rt(CPURegister rt) {
- VIXL_ASSERT(rt.code() != kSPRegInternalCode);
- return rt.code() << Rt_offset;
- }
-
- static Instr Rt2(CPURegister rt2) {
- VIXL_ASSERT(rt2.code() != kSPRegInternalCode);
- return rt2.code() << Rt2_offset;
- }
-
- static Instr Rs(CPURegister rs) {
- VIXL_ASSERT(rs.code() != kSPRegInternalCode);
- return rs.code() << Rs_offset;
- }
-
- // These encoding functions allow the stack pointer to be encoded, and
- // disallow the zero register.
- static Instr RdSP(Register rd) {
- VIXL_ASSERT(!rd.IsZero());
- return (rd.code() & kRegCodeMask) << Rd_offset;
- }
-
- static Instr RnSP(Register rn) {
- VIXL_ASSERT(!rn.IsZero());
- return (rn.code() & kRegCodeMask) << Rn_offset;
- }
-
- // Flags encoding.
- static Instr Flags(FlagsUpdate S) {
- if (S == SetFlags) {
- return 1 << FlagsUpdate_offset;
- } else if (S == LeaveFlags) {
- return 0 << FlagsUpdate_offset;
- }
- VIXL_UNREACHABLE();
- return 0;
- }
-
- static Instr Cond(Condition cond) {
- return cond << Condition_offset;
- }
-
- // PC-relative address encoding.
- static Instr ImmPCRelAddress(int imm21) {
- VIXL_ASSERT(is_int21(imm21));
- Instr imm = static_cast<Instr>(truncate_to_int21(imm21));
- Instr immhi = (imm >> ImmPCRelLo_width) << ImmPCRelHi_offset;
- Instr immlo = imm << ImmPCRelLo_offset;
- return (immhi & ImmPCRelHi_mask) | (immlo & ImmPCRelLo_mask);
- }
-
- // Branch encoding.
- static Instr ImmUncondBranch(int imm26) {
- VIXL_ASSERT(is_int26(imm26));
- return truncate_to_int26(imm26) << ImmUncondBranch_offset;
- }
-
- static Instr ImmCondBranch(int imm19) {
- VIXL_ASSERT(is_int19(imm19));
- return truncate_to_int19(imm19) << ImmCondBranch_offset;
- }
-
- static Instr ImmCmpBranch(int imm19) {
- VIXL_ASSERT(is_int19(imm19));
- return truncate_to_int19(imm19) << ImmCmpBranch_offset;
- }
-
- static Instr ImmTestBranch(int imm14) {
- VIXL_ASSERT(is_int14(imm14));
- return truncate_to_int14(imm14) << ImmTestBranch_offset;
- }
-
- static Instr ImmTestBranchBit(unsigned bit_pos) {
- VIXL_ASSERT(is_uint6(bit_pos));
- // Subtract five from the shift offset, as we need bit 5 from bit_pos.
- unsigned b5 = bit_pos << (ImmTestBranchBit5_offset - 5);
- unsigned b40 = bit_pos << ImmTestBranchBit40_offset;
- b5 &= ImmTestBranchBit5_mask;
- b40 &= ImmTestBranchBit40_mask;
- return b5 | b40;
- }
-
- // Data Processing encoding.
- static Instr SF(Register rd) {
- return rd.Is64Bits() ? SixtyFourBits : ThirtyTwoBits;
- }
-
- static Instr ImmAddSub(int64_t imm) {
- VIXL_ASSERT(IsImmAddSub(imm));
- if (is_uint12(imm)) { // No shift required.
- return imm << ImmAddSub_offset;
- } else {
- return ((imm >> 12) << ImmAddSub_offset) | (1 << ShiftAddSub_offset);
- }
- }
-
- static Instr ImmS(unsigned imms, unsigned reg_size) {
- VIXL_ASSERT(((reg_size == kXRegSize) && is_uint6(imms)) ||
- ((reg_size == kWRegSize) && is_uint5(imms)));
- USE(reg_size);
- return imms << ImmS_offset;
- }
-
- static Instr ImmR(unsigned immr, unsigned reg_size) {
- VIXL_ASSERT(((reg_size == kXRegSize) && is_uint6(immr)) ||
- ((reg_size == kWRegSize) && is_uint5(immr)));
- USE(reg_size);
- VIXL_ASSERT(is_uint6(immr));
- return immr << ImmR_offset;
- }
-
- static Instr ImmSetBits(unsigned imms, unsigned reg_size) {
- VIXL_ASSERT((reg_size == kWRegSize) || (reg_size == kXRegSize));
- VIXL_ASSERT(is_uint6(imms));
- VIXL_ASSERT((reg_size == kXRegSize) || is_uint6(imms + 3));
- USE(reg_size);
- return imms << ImmSetBits_offset;
- }
-
- static Instr ImmRotate(unsigned immr, unsigned reg_size) {
- VIXL_ASSERT((reg_size == kWRegSize) || (reg_size == kXRegSize));
- VIXL_ASSERT(((reg_size == kXRegSize) && is_uint6(immr)) ||
- ((reg_size == kWRegSize) && is_uint5(immr)));
- USE(reg_size);
- return immr << ImmRotate_offset;
- }
-
- static Instr ImmLLiteral(int imm19) {
- VIXL_ASSERT(is_int19(imm19));
- return truncate_to_int19(imm19) << ImmLLiteral_offset;
- }
-
- static Instr BitN(unsigned bitn, unsigned reg_size) {
- VIXL_ASSERT((reg_size == kWRegSize) || (reg_size == kXRegSize));
- VIXL_ASSERT((reg_size == kXRegSize) || (bitn == 0));
- USE(reg_size);
- return bitn << BitN_offset;
- }
-
- static Instr ShiftDP(Shift shift) {
- VIXL_ASSERT(shift == LSL || shift == LSR || shift == ASR || shift == ROR);
- return shift << ShiftDP_offset;
- }
-
- static Instr ImmDPShift(unsigned amount) {
- VIXL_ASSERT(is_uint6(amount));
- return amount << ImmDPShift_offset;
- }
-
- static Instr ExtendMode(Extend extend) {
- return extend << ExtendMode_offset;
- }
-
- static Instr ImmExtendShift(unsigned left_shift) {
- VIXL_ASSERT(left_shift <= 4);
- return left_shift << ImmExtendShift_offset;
- }
-
- static Instr ImmCondCmp(unsigned imm) {
- VIXL_ASSERT(is_uint5(imm));
- return imm << ImmCondCmp_offset;
- }
-
- static Instr Nzcv(StatusFlags nzcv) {
- return ((nzcv >> Flags_offset) & 0xf) << Nzcv_offset;
- }
-
- // MemOperand offset encoding.
- static Instr ImmLSUnsigned(int imm12) {
- VIXL_ASSERT(is_uint12(imm12));
- return imm12 << ImmLSUnsigned_offset;
- }
-
- static Instr ImmLS(int imm9) {
- VIXL_ASSERT(is_int9(imm9));
- return truncate_to_int9(imm9) << ImmLS_offset;
- }
-
- static Instr ImmLSPair(int imm7, LSDataSize size) {
- VIXL_ASSERT(((imm7 >> size) << size) == imm7);
- int scaled_imm7 = imm7 >> size;
- VIXL_ASSERT(is_int7(scaled_imm7));
- return truncate_to_int7(scaled_imm7) << ImmLSPair_offset;
- }
-
- static Instr ImmShiftLS(unsigned shift_amount) {
- VIXL_ASSERT(is_uint1(shift_amount));
- return shift_amount << ImmShiftLS_offset;
- }
-
- static Instr ImmPrefetchOperation(int imm5) {
- VIXL_ASSERT(is_uint5(imm5));
- return imm5 << ImmPrefetchOperation_offset;
- }
-
- static Instr ImmException(int imm16) {
- VIXL_ASSERT(is_uint16(imm16));
- return imm16 << ImmException_offset;
- }
-
- static Instr ImmSystemRegister(int imm15) {
- VIXL_ASSERT(is_uint15(imm15));
- return imm15 << ImmSystemRegister_offset;
- }
-
- static Instr ImmHint(int imm7) {
- VIXL_ASSERT(is_uint7(imm7));
- return imm7 << ImmHint_offset;
- }
-
- static Instr CRm(int imm4) {
- VIXL_ASSERT(is_uint4(imm4));
- return imm4 << CRm_offset;
- }
-
- static Instr ImmBarrierDomain(int imm2) {
- VIXL_ASSERT(is_uint2(imm2));
- return imm2 << ImmBarrierDomain_offset;
- }
-
- static Instr ImmBarrierType(int imm2) {
- VIXL_ASSERT(is_uint2(imm2));
- return imm2 << ImmBarrierType_offset;
- }
-
- static LSDataSize CalcLSDataSize(LoadStoreOp op) {
- VIXL_ASSERT((SizeLS_offset + SizeLS_width) == (kInstructionSize * 8));
- return static_cast<LSDataSize>(op >> SizeLS_offset);
- }
-
- // Move immediates encoding.
- static Instr ImmMoveWide(uint64_t imm) {
- VIXL_ASSERT(is_uint16(imm));
- return imm << ImmMoveWide_offset;
- }
-
- static Instr ShiftMoveWide(int64_t shift) {
- VIXL_ASSERT(is_uint2(shift));
- return shift << ShiftMoveWide_offset;
- }
-
- // FP Immediates.
- static Instr ImmFP32(float imm);
- static Instr ImmFP64(double imm);
-
- // FP register type.
- static Instr FPType(FPRegister fd) {
- return fd.Is64Bits() ? FP64 : FP32;
- }
-
- static Instr FPScale(unsigned scale) {
- VIXL_ASSERT(is_uint6(scale));
- return scale << FPScale_offset;
- }
-
- // Immediate field checking helpers.
- static bool IsImmAddSub(int64_t immediate);
- static bool IsImmConditionalCompare(int64_t immediate);
- static bool IsImmFP32(float imm);
- static bool IsImmFP64(double imm);
- static bool IsImmLogical(uint64_t value,
- unsigned width,
- unsigned* n = NULL,
- unsigned* imm_s = NULL,
- unsigned* imm_r = NULL);
- static bool IsImmLSPair(int64_t offset, LSDataSize size);
- static bool IsImmLSScaled(int64_t offset, LSDataSize size);
- static bool IsImmLSUnscaled(int64_t offset);
- static bool IsImmMovn(uint64_t imm, unsigned reg_size);
- static bool IsImmMovz(uint64_t imm, unsigned reg_size);
-
- // Size of the code generated since label to the current position.
- size_t SizeOfCodeGeneratedSince(Label* label) const {
- VIXL_ASSERT(label->IsBound());
- return buffer_->OffsetFrom(label->location());
- }
-
- size_t SizeOfCodeGenerated() const {
- return buffer_->CursorOffset();
- }
-
- size_t BufferCapacity() const { return buffer_->capacity(); }
-
- size_t RemainingBufferSpace() const { return buffer_->RemainingBytes(); }
-
- void EnsureSpaceFor(size_t amount) {
- if (buffer_->RemainingBytes() < amount) {
- size_t capacity = buffer_->capacity();
- size_t size = buffer_->CursorOffset();
- do {
- // TODO(all): refine.
- capacity *= 2;
- } while ((capacity - size) < amount);
- buffer_->Grow(capacity);
- }
- }
-
-#ifdef VIXL_DEBUG
- void AcquireBuffer() {
- VIXL_ASSERT(buffer_monitor_ >= 0);
- buffer_monitor_++;
- }
-
- void ReleaseBuffer() {
- buffer_monitor_--;
- VIXL_ASSERT(buffer_monitor_ >= 0);
- }
-#endif
-
- PositionIndependentCodeOption pic() const {
- return pic_;
- }
-
- bool AllowPageOffsetDependentCode() const {
- return (pic() == PageOffsetDependentCode) ||
- (pic() == PositionDependentCode);
- }
-
- static const Register& AppropriateZeroRegFor(const CPURegister& reg) {
- return reg.Is64Bits() ? xzr : wzr;
- }
-
-
- protected:
- void LoadStore(const CPURegister& rt,
- const MemOperand& addr,
- LoadStoreOp op,
- LoadStoreScalingOption option = PreferScaledOffset);
-
- void LoadStorePair(const CPURegister& rt,
- const CPURegister& rt2,
- const MemOperand& addr,
- LoadStorePairOp op);
-
- void Prefetch(PrefetchOperation op,
- const MemOperand& addr,
- LoadStoreScalingOption option = PreferScaledOffset);
-
- // TODO(all): The third parameter should be passed by reference but gcc 4.8.2
- // reports a bogus uninitialised warning then.
- void Logical(const Register& rd,
- const Register& rn,
- const Operand operand,
- LogicalOp op);
- void LogicalImmediate(const Register& rd,
- const Register& rn,
- unsigned n,
- unsigned imm_s,
- unsigned imm_r,
- LogicalOp op);
-
- void ConditionalCompare(const Register& rn,
- const Operand& operand,
- StatusFlags nzcv,
- Condition cond,
- ConditionalCompareOp op);
-
- void AddSubWithCarry(const Register& rd,
- const Register& rn,
- const Operand& operand,
- FlagsUpdate S,
- AddSubWithCarryOp op);
-
-
- // Functions for emulating operands not directly supported by the instruction
- // set.
- void EmitShift(const Register& rd,
- const Register& rn,
- Shift shift,
- unsigned amount);
- void EmitExtendShift(const Register& rd,
- const Register& rn,
- Extend extend,
- unsigned left_shift);
-
- void AddSub(const Register& rd,
- const Register& rn,
- const Operand& operand,
- FlagsUpdate S,
- AddSubOp op);
-
- // Find an appropriate LoadStoreOp or LoadStorePairOp for the specified
- // registers. Only simple loads are supported; sign- and zero-extension (such
- // as in LDPSW_x or LDRB_w) are not supported.
- static LoadStoreOp LoadOpFor(const CPURegister& rt);
- static LoadStorePairOp LoadPairOpFor(const CPURegister& rt,
- const CPURegister& rt2);
- static LoadStoreOp StoreOpFor(const CPURegister& rt);
- static LoadStorePairOp StorePairOpFor(const CPURegister& rt,
- const CPURegister& rt2);
- static LoadStorePairNonTemporalOp LoadPairNonTemporalOpFor(
- const CPURegister& rt, const CPURegister& rt2);
- static LoadStorePairNonTemporalOp StorePairNonTemporalOpFor(
- const CPURegister& rt, const CPURegister& rt2);
- static LoadLiteralOp LoadLiteralOpFor(const CPURegister& rt);
-
-
- private:
- // Instruction helpers.
- void MoveWide(const Register& rd,
- uint64_t imm,
- int shift,
- MoveWideImmediateOp mov_op);
- void DataProcShiftedRegister(const Register& rd,
- const Register& rn,
- const Operand& operand,
- FlagsUpdate S,
- Instr op);
- void DataProcExtendedRegister(const Register& rd,
- const Register& rn,
- const Operand& operand,
- FlagsUpdate S,
- Instr op);
- void LoadStorePairNonTemporal(const CPURegister& rt,
- const CPURegister& rt2,
- const MemOperand& addr,
- LoadStorePairNonTemporalOp op);
- void LoadLiteral(const CPURegister& rt, uint64_t imm, LoadLiteralOp op);
- void ConditionalSelect(const Register& rd,
- const Register& rn,
- const Register& rm,
- Condition cond,
- ConditionalSelectOp op);
- void DataProcessing1Source(const Register& rd,
- const Register& rn,
- DataProcessing1SourceOp op);
- void DataProcessing3Source(const Register& rd,
- const Register& rn,
- const Register& rm,
- const Register& ra,
- DataProcessing3SourceOp op);
- void FPDataProcessing1Source(const FPRegister& fd,
- const FPRegister& fn,
- FPDataProcessing1SourceOp op);
- void FPDataProcessing2Source(const FPRegister& fd,
- const FPRegister& fn,
- const FPRegister& fm,
- FPDataProcessing2SourceOp op);
- void FPDataProcessing3Source(const FPRegister& fd,
- const FPRegister& fn,
- const FPRegister& fm,
- const FPRegister& fa,
- FPDataProcessing3SourceOp op);
-
- // Encode the specified MemOperand for the specified access size and scaling
- // preference.
- Instr LoadStoreMemOperand(const MemOperand& addr,
- LSDataSize size,
- LoadStoreScalingOption option);
-
- // Link the current (not-yet-emitted) instruction to the specified label, then
- // return an offset to be encoded in the instruction. If the label is not yet
- // bound, an offset of 0 is returned.
- ptrdiff_t LinkAndGetByteOffsetTo(Label * label);
- ptrdiff_t LinkAndGetInstructionOffsetTo(Label * label);
- ptrdiff_t LinkAndGetPageOffsetTo(Label * label);
-
- // A common implementation for the LinkAndGet<Type>OffsetTo helpers.
- template <int element_shift>
- ptrdiff_t LinkAndGetOffsetTo(Label* label);
-
- // Literal load offset are in words (32-bit).
- ptrdiff_t LinkAndGetWordOffsetTo(RawLiteral* literal);
-
- // Emit the instruction in buffer_.
- void Emit(Instr instruction) {
- VIXL_STATIC_ASSERT(sizeof(instruction) == kInstructionSize);
- VIXL_ASSERT(buffer_monitor_ > 0);
- buffer_->Emit32(instruction);
- }
-
- // Buffer where the code is emitted.
- CodeBuffer* buffer_;
- PositionIndependentCodeOption pic_;
-
-#ifdef VIXL_DEBUG
- int64_t buffer_monitor_;
-#endif
-};
-
-
-// All Assembler emits MUST acquire/release the underlying code buffer. The
-// helper scope below will do so and optionally ensure the buffer is big enough
-// to receive the emit. It is possible to request the scope not to perform any
-// checks (kNoCheck) if for example it is known in advance the buffer size is
-// adequate or there is some other size checking mechanism in place.
-class CodeBufferCheckScope {
- public:
- // Tell whether or not the scope needs to ensure the associated CodeBuffer
- // has enough space for the requested size.
- enum CheckPolicy {
- kNoCheck,
- kCheck
- };
-
- // Tell whether or not the scope should assert the amount of code emitted
- // within the scope is consistent with the requested amount.
- enum AssertPolicy {
- kNoAssert, // No assert required.
- kExactSize, // The code emitted must be exactly size bytes.
- kMaximumSize // The code emitted must be at most size bytes.
- };
-
- CodeBufferCheckScope(Assembler* assm,
- size_t size,
- CheckPolicy check_policy = kCheck,
- AssertPolicy assert_policy = kMaximumSize)
- : assm_(assm) {
- if (check_policy == kCheck) assm->EnsureSpaceFor(size);
-#ifdef VIXL_DEBUG
- assm->bind(&start_);
- size_ = size;
- assert_policy_ = assert_policy;
- assm->AcquireBuffer();
-#else
- USE(assert_policy);
-#endif
- }
-
- // This is a shortcut for CodeBufferCheckScope(assm, 0, kNoCheck, kNoAssert).
- explicit CodeBufferCheckScope(Assembler* assm) : assm_(assm) {
-#ifdef VIXL_DEBUG
- size_ = 0;
- assert_policy_ = kNoAssert;
- assm->AcquireBuffer();
-#endif
- }
-
- ~CodeBufferCheckScope() {
-#ifdef VIXL_DEBUG
- assm_->ReleaseBuffer();
- switch (assert_policy_) {
- case kNoAssert: break;
- case kExactSize:
- VIXL_ASSERT(assm_->SizeOfCodeGeneratedSince(&start_) == size_);
- break;
- case kMaximumSize:
- VIXL_ASSERT(assm_->SizeOfCodeGeneratedSince(&start_) <= size_);
- break;
- default:
- VIXL_UNREACHABLE();
- }
-#endif
- }
-
- protected:
- Assembler* assm_;
-#ifdef VIXL_DEBUG
- Label start_;
- size_t size_;
- AssertPolicy assert_policy_;
-#endif
-};
-
-} // namespace vixl
-
-#endif // VIXL_A64_ASSEMBLER_A64_H_