runtime/vm/regexp_assembler.h - external/github.com/dart-lang/sdk.git - Git at Google

 // Copyright (c) 2014, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #ifndef RUNTIME_VM_REGEXP_ASSEMBLER_H_
 #define RUNTIME_VM_REGEXP_ASSEMBLER_H_

 #include "vm/compiler/assembler/assembler.h"
 #include "vm/compiler/backend/il.h"
 #include "vm/object.h"

 namespace dart {

 // Utility function for the DotPrinter
 void PrintUtf16(uint16_t c);

 /// Convenience wrapper around a BlockEntryInstr pointer.
 class BlockLabel : public ValueObject {
   // Used by the IR assembler.
  public:
   BlockLabel();

   JoinEntryInstr* block() const { return block_; }

   bool IsBound() const { return is_bound_; }
   void SetBound(intptr_t block_id) {
     ASSERT(!is_bound_);
     block_->set_block_id(block_id);
     is_bound_ = true;
   }

   bool IsLinked() const { return !is_bound_ && is_linked_; }
   void SetLinked() { is_linked_ = true; }

   intptr_t Position() const {
     ASSERT(IsBound());
     return block_->block_id();
   }

  private:
   JoinEntryInstr* block_;

   bool is_bound_;
   bool is_linked_;

   // Used by the bytecode assembler.
  public:
   ~BlockLabel() { ASSERT(!is_linked()); }

   intptr_t pos() const { return pos_; }
   bool is_bound() const { return IsBound(); }
   bool is_linked() const { return IsLinked(); }

   void Unuse() {
     pos_ = 0;
     is_bound_ = false;
     is_linked_ = false;
   }

   void bind_to(intptr_t pos) {
     pos_ = pos;
     is_bound_ = true;
     is_linked_ = false;
     ASSERT(is_bound());
   }

   void link_to(intptr_t pos) {
     pos_ = pos;
     is_bound_ = false;
     is_linked_ = true;
     ASSERT(is_linked());
   }

  private:
   intptr_t pos_;
 };

 class RegExpMacroAssembler : public ZoneAllocated {
  public:
   // The implementation must be able to handle at least:
   static const intptr_t kMaxRegister = (1 << 16) - 1;
   static const intptr_t kMaxCPOffset = (1 << 15) - 1;
   static const intptr_t kMinCPOffset = -(1 << 15);

   static const intptr_t kTableSizeBits = 7;
   static const intptr_t kTableSize = 1 << kTableSizeBits;
   static const intptr_t kTableMask = kTableSize - 1;

   enum {
     kParamRegExpIndex = 0,
     kParamStringIndex,
     kParamStartOffsetIndex,
     kParamCount
   };

   enum IrregexpImplementation { kBytecodeImplementation, kIRImplementation };

   explicit RegExpMacroAssembler(Zone* zone);
   virtual ~RegExpMacroAssembler();
   // The maximal number of pushes between stack checks. Users must supply
   // kCheckStackLimit flag to push operations (instead of kNoStackLimitCheck)
   // at least once for every stack_limit() pushes that are executed.
   virtual intptr_t stack_limit_slack() = 0;
   virtual bool CanReadUnaligned() = 0;
   virtual void AdvanceCurrentPosition(intptr_t by) = 0;  // Signed cp change.
   virtual void AdvanceRegister(intptr_t reg, intptr_t by) = 0;  // r[reg] += by.
   // Continues execution from the position pushed on the top of the backtrack
   // stack by an earlier PushBacktrack(BlockLabel*).
   virtual void Backtrack() = 0;
   virtual void BindBlock(BlockLabel* label) = 0;
   virtual void CheckAtStart(BlockLabel* on_at_start) = 0;
   // Dispatch after looking the current character up in a 2-bits-per-entry
   // map.  The destinations vector has up to 4 labels.
   virtual void CheckCharacter(unsigned c, BlockLabel* on_equal) = 0;
   // Bitwise and the current character with the given constant and then
   // check for a match with c.
   virtual void CheckCharacterAfterAnd(unsigned c,
                                       unsigned and_with,
                                       BlockLabel* on_equal) = 0;
   virtual void CheckCharacterGT(uint16_t limit, BlockLabel* on_greater) = 0;
   virtual void CheckCharacterLT(uint16_t limit, BlockLabel* on_less) = 0;
   virtual void CheckGreedyLoop(BlockLabel* on_tos_equals_current_position) = 0;
   virtual void CheckNotAtStart(BlockLabel* on_not_at_start) = 0;
   virtual void CheckNotBackReference(intptr_t start_reg,
                                      BlockLabel* on_no_match) = 0;
   virtual void CheckNotBackReferenceIgnoreCase(intptr_t start_reg,
                                                BlockLabel* on_no_match) = 0;
   // Check the current character for a match with a literal character.  If we
   // fail to match then goto the on_failure label.  End of input always
   // matches.  If the label is NULL then we should pop a backtrack address off
   // the stack and go to that.
   virtual void CheckNotCharacter(unsigned c, BlockLabel* on_not_equal) = 0;
   virtual void CheckNotCharacterAfterAnd(unsigned c,
                                          unsigned and_with,
                                          BlockLabel* on_not_equal) = 0;
   // Subtract a constant from the current character, then and with the given
   // constant and then check for a match with c.
   virtual void CheckNotCharacterAfterMinusAnd(uint16_t c,
                                               uint16_t minus,
                                               uint16_t and_with,
                                               BlockLabel* on_not_equal) = 0;
   virtual void CheckCharacterInRange(uint16_t from,
                                      uint16_t to,  // Both inclusive.
                                      BlockLabel* on_in_range) = 0;
   virtual void CheckCharacterNotInRange(uint16_t from,
                                         uint16_t to,  // Both inclusive.
                                         BlockLabel* on_not_in_range) = 0;

   // The current character (modulus the kTableSize) is looked up in the byte
   // array, and if the found byte is non-zero, we jump to the on_bit_set label.
   virtual void CheckBitInTable(const TypedData& table,
                                BlockLabel* on_bit_set) = 0;

   // Checks for preemption and serves as an OSR entry.
   virtual void CheckPreemption(bool is_backtrack) {}

   // Checks whether the given offset from the current position is before
   // the end of the string.  May overwrite the current character.
   virtual void CheckPosition(intptr_t cp_offset, BlockLabel* on_outside_input) {
     LoadCurrentCharacter(cp_offset, on_outside_input, true);
   }
   // Check whether a standard/default character class matches the current
   // character. Returns false if the type of special character class does
   // not have custom support.
   // May clobber the current loaded character.
   virtual bool CheckSpecialCharacterClass(uint16_t type,
                                           BlockLabel* on_no_match) {
     return false;
   }
   virtual void Fail() = 0;
   // Check whether a register is >= a given constant and go to a label if it
   // is.  Backtracks instead if the label is NULL.
   virtual void IfRegisterGE(intptr_t reg,
                             intptr_t comparand,
                             BlockLabel* if_ge) = 0;
   // Check whether a register is < a given constant and go to a label if it is.
   // Backtracks instead if the label is NULL.
   virtual void IfRegisterLT(intptr_t reg,
                             intptr_t comparand,
                             BlockLabel* if_lt) = 0;
   // Check whether a register is == to the current position and go to a
   // label if it is.
   virtual void IfRegisterEqPos(intptr_t reg, BlockLabel* if_eq) = 0;
   virtual IrregexpImplementation Implementation() = 0;
   // The assembler is closed, iff there is no current instruction assigned.
   virtual bool IsClosed() const = 0;
   // Jump to the target label without setting it as the current instruction.
   virtual void GoTo(BlockLabel* to) = 0;
   virtual void LoadCurrentCharacter(intptr_t cp_offset,
                                     BlockLabel* on_end_of_input,
                                     bool check_bounds = true,
                                     intptr_t characters = 1) = 0;
   virtual void PopCurrentPosition() = 0;
   virtual void PopRegister(intptr_t register_index) = 0;
   // Prints string within the generated code. Used for debugging.
   virtual void Print(const char* str) = 0;
   // Prints all emitted blocks.
   virtual void PrintBlocks() = 0;
   // Pushes the label on the backtrack stack, so that a following Backtrack
   // will go to this label. Always checks the backtrack stack limit.
   virtual void PushBacktrack(BlockLabel* label) = 0;
   virtual void PushCurrentPosition() = 0;
   virtual void PushRegister(intptr_t register_index) = 0;
   virtual void ReadCurrentPositionFromRegister(intptr_t reg) = 0;
   virtual void ReadStackPointerFromRegister(intptr_t reg) = 0;
   virtual void SetCurrentPositionFromEnd(intptr_t by) = 0;
   virtual void SetRegister(intptr_t register_index, intptr_t to) = 0;
   // Return whether the matching (with a global regexp) will be restarted.
   virtual bool Succeed() = 0;
   virtual void WriteCurrentPositionToRegister(intptr_t reg,
                                               intptr_t cp_offset) = 0;
   virtual void ClearRegisters(intptr_t reg_from, intptr_t reg_to) = 0;
   virtual void WriteStackPointerToRegister(intptr_t reg) = 0;

   // Controls the generation of large inlined constants in the code.
   void set_slow_safe(bool ssc) { slow_safe_compiler_ = ssc; }
   bool slow_safe() { return slow_safe_compiler_; }

   enum GlobalMode { NOT_GLOBAL, GLOBAL, GLOBAL_NO_ZERO_LENGTH_CHECK };
   // Set whether the regular expression has the global flag.  Exiting due to
   // a failure in a global regexp may still mean success overall.
   inline void set_global_mode(GlobalMode mode) { global_mode_ = mode; }
   inline bool global() { return global_mode_ != NOT_GLOBAL; }
   inline bool global_with_zero_length_check() { return global_mode_ == GLOBAL; }

   Zone* zone() const { return zone_; }

  private:
   bool slow_safe_compiler_;
   bool global_mode_;
   Zone* zone_;
 };

 }  // namespace dart

 #endif  // RUNTIME_VM_REGEXP_ASSEMBLER_H_
	// Copyright (c) 2014, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#ifndef RUNTIME_VM_REGEXP_ASSEMBLER_H_
	#define RUNTIME_VM_REGEXP_ASSEMBLER_H_

	#include "vm/compiler/assembler/assembler.h"
	#include "vm/compiler/backend/il.h"
	#include "vm/object.h"

	namespace dart {

	// Utility function for the DotPrinter
	void PrintUtf16(uint16_t c);

	/// Convenience wrapper around a BlockEntryInstr pointer.
	class BlockLabel : public ValueObject {
	// Used by the IR assembler.
	public:
	BlockLabel();

	JoinEntryInstr* block() const { return block_; }

	bool IsBound() const { return is_bound_; }
	void SetBound(intptr_t block_id) {
	ASSERT(!is_bound_);
	block_->set_block_id(block_id);
	is_bound_ = true;
	}

	bool IsLinked() const { return !is_bound_ && is_linked_; }
	void SetLinked() { is_linked_ = true; }

	intptr_t Position() const {
	ASSERT(IsBound());
	return block_->block_id();
	}

	private:
	JoinEntryInstr* block_;

	bool is_bound_;
	bool is_linked_;

	// Used by the bytecode assembler.
	public:
	~BlockLabel() { ASSERT(!is_linked()); }

	intptr_t pos() const { return pos_; }
	bool is_bound() const { return IsBound(); }
	bool is_linked() const { return IsLinked(); }

	void Unuse() {
	pos_ = 0;
	is_bound_ = false;
	is_linked_ = false;
	}

	void bind_to(intptr_t pos) {
	pos_ = pos;
	is_bound_ = true;
	is_linked_ = false;
	ASSERT(is_bound());
	}

	void link_to(intptr_t pos) {
	pos_ = pos;
	is_bound_ = false;
	is_linked_ = true;
	ASSERT(is_linked());
	}

	private:
	intptr_t pos_;
	};

	class RegExpMacroAssembler : public ZoneAllocated {
	public:
	// The implementation must be able to handle at least:
	static const intptr_t kMaxRegister = (1 << 16) - 1;
	static const intptr_t kMaxCPOffset = (1 << 15) - 1;
	static const intptr_t kMinCPOffset = -(1 << 15);

	static const intptr_t kTableSizeBits = 7;
	static const intptr_t kTableSize = 1 << kTableSizeBits;
	static const intptr_t kTableMask = kTableSize - 1;

	enum {
	kParamRegExpIndex = 0,
	kParamStringIndex,
	kParamStartOffsetIndex,
	kParamCount
	};

	enum IrregexpImplementation { kBytecodeImplementation, kIRImplementation };

	explicit RegExpMacroAssembler(Zone* zone);
	virtual ~RegExpMacroAssembler();
	// The maximal number of pushes between stack checks. Users must supply
	// kCheckStackLimit flag to push operations (instead of kNoStackLimitCheck)
	// at least once for every stack_limit() pushes that are executed.
	virtual intptr_t stack_limit_slack() = 0;
	virtual bool CanReadUnaligned() = 0;
	virtual void AdvanceCurrentPosition(intptr_t by) = 0; // Signed cp change.
	virtual void AdvanceRegister(intptr_t reg, intptr_t by) = 0; // r[reg] += by.
	// Continues execution from the position pushed on the top of the backtrack
	// stack by an earlier PushBacktrack(BlockLabel*).
	virtual void Backtrack() = 0;
	virtual void BindBlock(BlockLabel* label) = 0;
	virtual void CheckAtStart(BlockLabel* on_at_start) = 0;
	// Dispatch after looking the current character up in a 2-bits-per-entry
	// map. The destinations vector has up to 4 labels.
	virtual void CheckCharacter(unsigned c, BlockLabel* on_equal) = 0;
	// Bitwise and the current character with the given constant and then
	// check for a match with c.
	virtual void CheckCharacterAfterAnd(unsigned c,
	unsigned and_with,
	BlockLabel* on_equal) = 0;
	virtual void CheckCharacterGT(uint16_t limit, BlockLabel* on_greater) = 0;
	virtual void CheckCharacterLT(uint16_t limit, BlockLabel* on_less) = 0;
	virtual void CheckGreedyLoop(BlockLabel* on_tos_equals_current_position) = 0;
	virtual void CheckNotAtStart(BlockLabel* on_not_at_start) = 0;
	virtual void CheckNotBackReference(intptr_t start_reg,
	BlockLabel* on_no_match) = 0;
	virtual void CheckNotBackReferenceIgnoreCase(intptr_t start_reg,
	BlockLabel* on_no_match) = 0;
	// Check the current character for a match with a literal character. If we
	// fail to match then goto the on_failure label. End of input always
	// matches. If the label is NULL then we should pop a backtrack address off
	// the stack and go to that.
	virtual void CheckNotCharacter(unsigned c, BlockLabel* on_not_equal) = 0;
	virtual void CheckNotCharacterAfterAnd(unsigned c,
	unsigned and_with,
	BlockLabel* on_not_equal) = 0;
	// Subtract a constant from the current character, then and with the given
	// constant and then check for a match with c.
	virtual void CheckNotCharacterAfterMinusAnd(uint16_t c,
	uint16_t minus,
	uint16_t and_with,
	BlockLabel* on_not_equal) = 0;
	virtual void CheckCharacterInRange(uint16_t from,
	uint16_t to, // Both inclusive.
	BlockLabel* on_in_range) = 0;
	virtual void CheckCharacterNotInRange(uint16_t from,
	uint16_t to, // Both inclusive.
	BlockLabel* on_not_in_range) = 0;

	// The current character (modulus the kTableSize) is looked up in the byte
	// array, and if the found byte is non-zero, we jump to the on_bit_set label.
	virtual void CheckBitInTable(const TypedData& table,
	BlockLabel* on_bit_set) = 0;

	// Checks for preemption and serves as an OSR entry.
	virtual void CheckPreemption(bool is_backtrack) {}

	// Checks whether the given offset from the current position is before
	// the end of the string. May overwrite the current character.
	virtual void CheckPosition(intptr_t cp_offset, BlockLabel* on_outside_input) {
	LoadCurrentCharacter(cp_offset, on_outside_input, true);
	}
	// Check whether a standard/default character class matches the current
	// character. Returns false if the type of special character class does
	// not have custom support.
	// May clobber the current loaded character.
	virtual bool CheckSpecialCharacterClass(uint16_t type,
	BlockLabel* on_no_match) {
	return false;
	}
	virtual void Fail() = 0;
	// Check whether a register is >= a given constant and go to a label if it
	// is. Backtracks instead if the label is NULL.
	virtual void IfRegisterGE(intptr_t reg,
	intptr_t comparand,
	BlockLabel* if_ge) = 0;
	// Check whether a register is < a given constant and go to a label if it is.
	// Backtracks instead if the label is NULL.
	virtual void IfRegisterLT(intptr_t reg,
	intptr_t comparand,
	BlockLabel* if_lt) = 0;
	// Check whether a register is == to the current position and go to a
	// label if it is.
	virtual void IfRegisterEqPos(intptr_t reg, BlockLabel* if_eq) = 0;
	virtual IrregexpImplementation Implementation() = 0;
	// The assembler is closed, iff there is no current instruction assigned.
	virtual bool IsClosed() const = 0;
	// Jump to the target label without setting it as the current instruction.
	virtual void GoTo(BlockLabel* to) = 0;
	virtual void LoadCurrentCharacter(intptr_t cp_offset,
	BlockLabel* on_end_of_input,
	bool check_bounds = true,
	intptr_t characters = 1) = 0;
	virtual void PopCurrentPosition() = 0;
	virtual void PopRegister(intptr_t register_index) = 0;
	// Prints string within the generated code. Used for debugging.
	virtual void Print(const char* str) = 0;
	// Prints all emitted blocks.
	virtual void PrintBlocks() = 0;
	// Pushes the label on the backtrack stack, so that a following Backtrack
	// will go to this label. Always checks the backtrack stack limit.
	virtual void PushBacktrack(BlockLabel* label) = 0;
	virtual void PushCurrentPosition() = 0;
	virtual void PushRegister(intptr_t register_index) = 0;
	virtual void ReadCurrentPositionFromRegister(intptr_t reg) = 0;
	virtual void ReadStackPointerFromRegister(intptr_t reg) = 0;
	virtual void SetCurrentPositionFromEnd(intptr_t by) = 0;
	virtual void SetRegister(intptr_t register_index, intptr_t to) = 0;
	// Return whether the matching (with a global regexp) will be restarted.
	virtual bool Succeed() = 0;
	virtual void WriteCurrentPositionToRegister(intptr_t reg,
	intptr_t cp_offset) = 0;
	virtual void ClearRegisters(intptr_t reg_from, intptr_t reg_to) = 0;
	virtual void WriteStackPointerToRegister(intptr_t reg) = 0;

	// Controls the generation of large inlined constants in the code.
	void set_slow_safe(bool ssc) { slow_safe_compiler_ = ssc; }
	bool slow_safe() { return slow_safe_compiler_; }

	enum GlobalMode { NOT_GLOBAL, GLOBAL, GLOBAL_NO_ZERO_LENGTH_CHECK };
	// Set whether the regular expression has the global flag. Exiting due to
	// a failure in a global regexp may still mean success overall.
	inline void set_global_mode(GlobalMode mode) { global_mode_ = mode; }
	inline bool global() { return global_mode_ != NOT_GLOBAL; }
	inline bool global_with_zero_length_check() { return global_mode_ == GLOBAL; }

	Zone* zone() const { return zone_; }

	private:
	bool slow_safe_compiler_;
	bool global_mode_;
	Zone* zone_;
	};

	} // namespace dart

	#endif // RUNTIME_VM_REGEXP_ASSEMBLER_H_