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// Copyright (c) 1994-2006 Sun Microsystems Inc.
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// All Rights Reserved.
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// - Redistributions of source code must retain the above copyright notice,
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// this list of conditions and the following disclaimer.
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//
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// - Redistribution in binary form must reproduce the above copyright
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// notice, this list of conditions and the following disclaimer in the
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// documentation and/or other materials provided with the distribution.
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//
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// - Neither the name of Sun Microsystems or the names of contributors may
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// be used to endorse or promote products derived from this software without
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// specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
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// IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
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// THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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// PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
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// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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// The original source code covered by the above license above has been
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// modified significantly by Google Inc.
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// Copyright 2006-2009 the V8 project authors. All rights reserved.
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#ifndef V8_ASSEMBLER_H_
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#define V8_ASSEMBLER_H_
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#include "runtime.h"
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#include "top.h"
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#include "token.h"
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namespace v8 {
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namespace internal {
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// -----------------------------------------------------------------------------
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// Labels represent pc locations; they are typically jump or call targets.
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// After declaration, a label can be freely used to denote known or (yet)
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// unknown pc location. Assembler::bind() is used to bind a label to the
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// current pc. A label can be bound only once.
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class Label BASE_EMBEDDED {
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public:
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INLINE(Label()) { Unuse(); }
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INLINE(~Label()) { ASSERT(!is_linked()); }
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INLINE(void Unuse()) { pos_ = 0; }
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INLINE(bool is_bound() const) { return pos_ < 0; }
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INLINE(bool is_unused() const) { return pos_ == 0; }
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INLINE(bool is_linked() const) { return pos_ > 0; }
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// Returns the position of bound or linked labels. Cannot be used
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// for unused labels.
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int pos() const;
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private:
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// pos_ encodes both the binding state (via its sign)
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// and the binding position (via its value) of a label.
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//
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// pos_ < 0 bound label, pos() returns the jump target position
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// pos_ == 0 unused label
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// pos_ > 0 linked label, pos() returns the last reference position
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int pos_;
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void bind_to(int pos) {
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pos_ = -pos - 1;
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ASSERT(is_bound());
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}
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void link_to(int pos) {
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pos_ = pos + 1;
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ASSERT(is_linked());
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}
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friend class Assembler;
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friend class RegexpAssembler;
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friend class Displacement;
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friend class ShadowTarget;
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friend class RegExpMacroAssemblerIrregexp;
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};
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// -----------------------------------------------------------------------------
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// Relocation information
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// Relocation information consists of the address (pc) of the datum
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// to which the relocation information applies, the relocation mode
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// (rmode), and an optional data field. The relocation mode may be
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// "descriptive" and not indicate a need for relocation, but simply
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// describe a property of the datum. Such rmodes are useful for GC
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// and nice disassembly output.
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class RelocInfo BASE_EMBEDDED {
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public:
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// The constant kNoPosition is used with the collecting of source positions
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// in the relocation information. Two types of source positions are collected
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// "position" (RelocMode position) and "statement position" (RelocMode
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// statement_position). The "position" is collected at places in the source
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// code which are of interest when making stack traces to pin-point the source
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// location of a stack frame as close as possible. The "statement position" is
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// collected at the beginning at each statement, and is used to indicate
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// possible break locations. kNoPosition is used to indicate an
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// invalid/uninitialized position value.
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static const int kNoPosition = -1;
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enum Mode {
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// Please note the order is important (see IsCodeTarget, IsGCRelocMode).
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CONSTRUCT_CALL, // code target that is a call to a JavaScript constructor.
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CODE_TARGET_CONTEXT, // code target used for contextual loads.
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DEBUG_BREAK,
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CODE_TARGET, // code target which is not any of the above.
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EMBEDDED_OBJECT,
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EMBEDDED_STRING,
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// Everything after runtime_entry (inclusive) is not GC'ed.
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RUNTIME_ENTRY,
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JS_RETURN, // Marks start of the ExitJSFrame code.
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COMMENT,
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POSITION, // See comment for kNoPosition above.
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STATEMENT_POSITION, // See comment for kNoPosition above.
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EXTERNAL_REFERENCE, // The address of an external C++ function.
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INTERNAL_REFERENCE, // An address inside the same function.
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// add more as needed
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// Pseudo-types
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NUMBER_OF_MODES, // must be no greater than 14 - see RelocInfoWriter
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NONE, // never recorded
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LAST_CODE_ENUM = CODE_TARGET,
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LAST_GCED_ENUM = EMBEDDED_STRING
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};
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RelocInfo() {}
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RelocInfo(byte* pc, Mode rmode, intptr_t data)
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: pc_(pc), rmode_(rmode), data_(data) {
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}
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static inline bool IsConstructCall(Mode mode) {
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return mode == CONSTRUCT_CALL;
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}
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static inline bool IsCodeTarget(Mode mode) {
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return mode <= LAST_CODE_ENUM;
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}
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// Is the relocation mode affected by GC?
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static inline bool IsGCRelocMode(Mode mode) {
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return mode <= LAST_GCED_ENUM;
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}
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static inline bool IsJSReturn(Mode mode) {
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return mode == JS_RETURN;
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}
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static inline bool IsComment(Mode mode) {
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return mode == COMMENT;
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}
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static inline bool IsPosition(Mode mode) {
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return mode == POSITION || mode == STATEMENT_POSITION;
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}
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static inline bool IsStatementPosition(Mode mode) {
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return mode == STATEMENT_POSITION;
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}
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static inline bool IsExternalReference(Mode mode) {
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return mode == EXTERNAL_REFERENCE;
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}
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static inline bool IsInternalReference(Mode mode) {
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return mode == INTERNAL_REFERENCE;
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}
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static inline int ModeMask(Mode mode) { return 1 << mode; }
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// Accessors
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byte* pc() const { return pc_; }
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void set_pc(byte* pc) { pc_ = pc; }
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Mode rmode() const { return rmode_; }
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intptr_t data() const { return data_; }
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// Apply a relocation by delta bytes
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INLINE(void apply(intptr_t delta));
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// Read/modify the code target in the branch/call instruction
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// this relocation applies to;
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// can only be called if IsCodeTarget(rmode_) || rmode_ == RUNTIME_ENTRY
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INLINE(Address target_address());
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INLINE(void set_target_address(Address target));
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INLINE(Object* target_object());
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INLINE(Handle<Object> target_object_handle(Assembler* origin));
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INLINE(Object** target_object_address());
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INLINE(void set_target_object(Object* target));
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// Read the address of the word containing the target_address. Can only
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// be called if IsCodeTarget(rmode_) || rmode_ == RUNTIME_ENTRY.
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INLINE(Address target_address_address());
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// Read/modify the reference in the instruction this relocation
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// applies to; can only be called if rmode_ is external_reference
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INLINE(Address* target_reference_address());
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// Read/modify the address of a call instruction. This is used to relocate
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// the break points where straight-line code is patched with a call
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// instruction.
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INLINE(Address call_address());
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INLINE(void set_call_address(Address target));
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INLINE(Object* call_object());
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INLINE(Object** call_object_address());
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INLINE(void set_call_object(Object* target));
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// Patch the code with some other code.
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void PatchCode(byte* instructions, int instruction_count);
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// Patch the code with a call.
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void PatchCodeWithCall(Address target, int guard_bytes);
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// Check whether this return sequence has been patched
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// with a call to the debugger.
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INLINE(bool IsPatchedReturnSequence());
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#ifdef ENABLE_DISASSEMBLER
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// Printing
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static const char* RelocModeName(Mode rmode);
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void Print();
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#endif // ENABLE_DISASSEMBLER
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#ifdef DEBUG
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// Debugging
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void Verify();
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#endif
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static const int kCodeTargetMask = (1 << (LAST_CODE_ENUM + 1)) - 1;
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static const int kPositionMask = 1 << POSITION | 1 << STATEMENT_POSITION;
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static const int kDebugMask = kPositionMask | 1 << COMMENT;
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static const int kApplyMask; // Modes affected by apply. Depends on arch.
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private:
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// On ARM, note that pc_ is the address of the constant pool entry
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// to be relocated and not the address of the instruction
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// referencing the constant pool entry (except when rmode_ ==
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// comment).
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byte* pc_;
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Mode rmode_;
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intptr_t data_;
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friend class RelocIterator;
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};
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// RelocInfoWriter serializes a stream of relocation info. It writes towards
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// lower addresses.
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class RelocInfoWriter BASE_EMBEDDED {
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public:
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RelocInfoWriter() : pos_(NULL), last_pc_(NULL), last_data_(0) {}
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RelocInfoWriter(byte* pos, byte* pc) : pos_(pos), last_pc_(pc),
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last_data_(0) {}
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byte* pos() const { return pos_; }
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byte* last_pc() const { return last_pc_; }
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void Write(const RelocInfo* rinfo);
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// Update the state of the stream after reloc info buffer
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// and/or code is moved while the stream is active.
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void Reposition(byte* pos, byte* pc) {
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pos_ = pos;
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last_pc_ = pc;
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}
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// Max size (bytes) of a written RelocInfo. Longest encoding is
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// ExtraTag, VariableLengthPCJump, ExtraTag, pc_delta, ExtraTag, data_delta.
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// On ia32 and arm this is 1 + 4 + 1 + 1 + 1 + 4 = 12.
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// On x64 this is 1 + 4 + 1 + 1 + 1 + 8 == 16;
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// Here we use the maximum of the two.
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static const int kMaxSize = 16;
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private:
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inline uint32_t WriteVariableLengthPCJump(uint32_t pc_delta);
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inline void WriteTaggedPC(uint32_t pc_delta, int tag);
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inline void WriteExtraTaggedPC(uint32_t pc_delta, int extra_tag);
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inline void WriteExtraTaggedData(intptr_t data_delta, int top_tag);
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inline void WriteTaggedData(intptr_t data_delta, int tag);
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inline void WriteExtraTag(int extra_tag, int top_tag);
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byte* pos_;
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byte* last_pc_;
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intptr_t last_data_;
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DISALLOW_COPY_AND_ASSIGN(RelocInfoWriter);
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};
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// A RelocIterator iterates over relocation information.
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// Typical use:
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//
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// for (RelocIterator it(code); !it.done(); it.next()) {
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// // do something with it.rinfo() here
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// }
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//
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// A mask can be specified to skip unwanted modes.
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class RelocIterator: public Malloced {
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public:
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// Create a new iterator positioned at
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// the beginning of the reloc info.
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// Relocation information with mode k is included in the
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// iteration iff bit k of mode_mask is set.
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explicit RelocIterator(Code* code, int mode_mask = -1);
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explicit RelocIterator(const CodeDesc& desc, int mode_mask = -1);
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// Iteration
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bool done() const { return done_; }
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void next();
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// Return pointer valid until next next().
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RelocInfo* rinfo() {
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ASSERT(!done());
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return &rinfo_;
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}
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private:
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// Advance* moves the position before/after reading.
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// *Read* reads from current byte(s) into rinfo_.
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// *Get* just reads and returns info on current byte.
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void Advance(int bytes = 1) { pos_ -= bytes; }
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int AdvanceGetTag();
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int GetExtraTag();
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int GetTopTag();
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void ReadTaggedPC();
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void AdvanceReadPC();
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void AdvanceReadData();
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void AdvanceReadVariableLengthPCJump();
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int GetPositionTypeTag();
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void ReadTaggedData();
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static RelocInfo::Mode DebugInfoModeFromTag(int tag);
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// If the given mode is wanted, set it in rinfo_ and return true.
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// Else return false. Used for efficiently skipping unwanted modes.
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bool SetMode(RelocInfo::Mode mode) {
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return (mode_mask_ & 1 << mode) ? (rinfo_.rmode_ = mode, true) : false;
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}
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byte* pos_;
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byte* end_;
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RelocInfo rinfo_;
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bool done_;
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int mode_mask_;
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DISALLOW_COPY_AND_ASSIGN(RelocIterator);
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};
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//------------------------------------------------------------------------------
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// External function
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//----------------------------------------------------------------------------
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class IC_Utility;
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class SCTableReference;
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#ifdef ENABLE_DEBUGGER_SUPPORT
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class Debug_Address;
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#endif
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typedef void* ExternalReferenceRedirector(void* original, bool fp_return);
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// An ExternalReference represents a C++ address used in the generated
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// code. All references to C++ functions and variables must be encapsulated in
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// an ExternalReference instance. This is done in order to track the origin of
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// all external references in the code so that they can be bound to the correct
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// addresses when deserializing a heap.
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class ExternalReference BASE_EMBEDDED {
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public:
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explicit ExternalReference(Builtins::CFunctionId id);
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explicit ExternalReference(ApiFunction* ptr);
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explicit ExternalReference(Builtins::Name name);
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explicit ExternalReference(Runtime::FunctionId id);
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explicit ExternalReference(Runtime::Function* f);
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explicit ExternalReference(const IC_Utility& ic_utility);
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#ifdef ENABLE_DEBUGGER_SUPPORT
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explicit ExternalReference(const Debug_Address& debug_address);
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#endif
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explicit ExternalReference(StatsCounter* counter);
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explicit ExternalReference(Top::AddressId id);
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explicit ExternalReference(const SCTableReference& table_ref);
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// One-of-a-kind references. These references are not part of a general
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// pattern. This means that they have to be added to the
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// ExternalReferenceTable in serialize.cc manually.
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static ExternalReference perform_gc_function();
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static ExternalReference random_positive_smi_function();
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static ExternalReference transcendental_cache_array_address();
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// Static data in the keyed lookup cache.
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static ExternalReference keyed_lookup_cache_keys();
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static ExternalReference keyed_lookup_cache_field_offsets();
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// Static variable Factory::the_hole_value.location()
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static ExternalReference the_hole_value_location();
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// Static variable Heap::roots_address()
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static ExternalReference roots_address();
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// Static variable StackGuard::address_of_jslimit()
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static ExternalReference address_of_stack_limit();
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// Static variable StackGuard::address_of_real_jslimit()
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static ExternalReference address_of_real_stack_limit();
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// Static variable RegExpStack::limit_address()
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static ExternalReference address_of_regexp_stack_limit();
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// Static variables for RegExp.
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static ExternalReference address_of_static_offsets_vector();
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static ExternalReference address_of_regexp_stack_memory_address();
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static ExternalReference address_of_regexp_stack_memory_size();
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// Static variable Heap::NewSpaceStart()
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static ExternalReference new_space_start();
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static ExternalReference new_space_mask();
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static ExternalReference heap_always_allocate_scope_depth();
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// Used for fast allocation in generated code.
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static ExternalReference new_space_allocation_top_address();
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static ExternalReference new_space_allocation_limit_address();
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static ExternalReference double_fp_operation(Token::Value operation);
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static ExternalReference compare_doubles();
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static ExternalReference handle_scope_extensions_address();
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static ExternalReference handle_scope_next_address();
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static ExternalReference handle_scope_limit_address();
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static ExternalReference scheduled_exception_address();
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static ExternalReference compile_array_pop_call();
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static ExternalReference compile_array_push_call();
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Address address() const {return reinterpret_cast<Address>(address_);}
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#ifdef ENABLE_DEBUGGER_SUPPORT
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// Function Debug::Break()
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static ExternalReference debug_break();
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// Used to check if single stepping is enabled in generated code.
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static ExternalReference debug_step_in_fp_address();
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#endif
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#ifdef V8_NATIVE_REGEXP
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// C functions called from RegExp generated code.
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// Function NativeRegExpMacroAssembler::CaseInsensitiveCompareUC16()
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static ExternalReference re_case_insensitive_compare_uc16();
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// Function RegExpMacroAssembler*::CheckStackGuardState()
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static ExternalReference re_check_stack_guard_state();
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// Function NativeRegExpMacroAssembler::GrowStack()
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static ExternalReference re_grow_stack();
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// byte NativeRegExpMacroAssembler::word_character_bitmap
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static ExternalReference re_word_character_map();
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#endif
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// This lets you register a function that rewrites all external references.
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// Used by the ARM simulator to catch calls to external references.
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static void set_redirector(ExternalReferenceRedirector* redirector) {
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ASSERT(redirector_ == NULL); // We can't stack them.
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redirector_ = redirector;
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}
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private:
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explicit ExternalReference(void* address)
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: address_(address) {}
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static ExternalReferenceRedirector* redirector_;
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static void* Redirect(void* address, bool fp_return = false) {
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if (redirector_ == NULL) return address;
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void* answer = (*redirector_)(address, fp_return);
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return answer;
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}
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static void* Redirect(Address address_arg, bool fp_return = false) {
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void* address = reinterpret_cast<void*>(address_arg);
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void* answer = (redirector_ == NULL) ?
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address :
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(*redirector_)(address, fp_return);
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return answer;
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}
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void* address_;
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};
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// -----------------------------------------------------------------------------
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// Utility functions
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static inline bool is_intn(int x, int n) {
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return -(1 << (n-1)) <= x && x < (1 << (n-1));
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}
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static inline bool is_int8(int x) { return is_intn(x, 8); }
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static inline bool is_int16(int x) { return is_intn(x, 16); }
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static inline bool is_int18(int x) { return is_intn(x, 18); }
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static inline bool is_int24(int x) { return is_intn(x, 24); }
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static inline bool is_uintn(int x, int n) {
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return (x & -(1 << n)) == 0;
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}
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static inline bool is_uint2(int x) { return is_uintn(x, 2); }
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static inline bool is_uint3(int x) { return is_uintn(x, 3); }
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static inline bool is_uint4(int x) { return is_uintn(x, 4); }
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static inline bool is_uint5(int x) { return is_uintn(x, 5); }
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static inline bool is_uint6(int x) { return is_uintn(x, 6); }
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static inline bool is_uint8(int x) { return is_uintn(x, 8); }
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static inline bool is_uint10(int x) { return is_uintn(x, 10); }
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static inline bool is_uint12(int x) { return is_uintn(x, 12); }
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static inline bool is_uint16(int x) { return is_uintn(x, 16); }
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static inline bool is_uint24(int x) { return is_uintn(x, 24); }
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static inline bool is_uint26(int x) { return is_uintn(x, 26); }
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static inline bool is_uint28(int x) { return is_uintn(x, 28); }
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static inline int NumberOfBitsSet(uint32_t x) {
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unsigned int num_bits_set;
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for (num_bits_set = 0; x; x >>= 1) {
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num_bits_set += x & 1;
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}
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return num_bits_set;
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}
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} } // namespace v8::internal
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#endif // V8_ASSEMBLER_H_
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