third_party/v8/src/regexp/regexp.h - cobalt - Git at Google

 // Copyright 2012 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef V8_REGEXP_REGEXP_H_
 #define V8_REGEXP_REGEXP_H_

 #include "src/objects/js-regexp.h"
 #include "src/regexp/regexp-error.h"

 namespace v8 {
 namespace internal {

 class RegExpNode;
 class RegExpTree;

 enum class RegExpCompilationTarget : int { kBytecode, kNative };

 // TODO(jgruber): Do not expose in regexp.h.
 // TODO(jgruber): Consider splitting between ParseData and CompileData.
 struct RegExpCompileData {
   // The parsed AST as produced by the RegExpParser.
   RegExpTree* tree = nullptr;

   // The compiled Node graph as produced by RegExpTree::ToNode methods.
   RegExpNode* node = nullptr;

   // Either the generated code as produced by the compiler or a trampoline
   // to the interpreter.
   Handle<Object> code;

   // True, iff the pattern is a 'simple' atom with zero captures. In other
   // words, the pattern consists of a string with no metacharacters and special
   // regexp features, and can be implemented as a standard string search.
   bool simple = true;

   // True, iff the pattern is anchored at the start of the string with '^'.
   bool contains_anchor = false;

   // Only use if the pattern contains named captures. If so, this contains a
   // mapping of capture names to capture indices.
   Handle<FixedArray> capture_name_map;

   // The error message. Only used if an error occurred during parsing or
   // compilation.
   RegExpError error = RegExpError::kNone;

   // The position at which the error was detected. Only used if an
   // error occurred.
   int error_pos = 0;

   // The number of capture groups, without the global capture \0.
   int capture_count = 0;

   // The number of registers used by the generated code.
   int register_count = 0;

   // The compilation target (bytecode or native code).
   RegExpCompilationTarget compilation_target;
 };

 class RegExp final : public AllStatic {
  public:
   // Whether the irregexp engine generates interpreter bytecode.
   static bool CanGenerateBytecode() {
     return FLAG_regexp_interpret_all || FLAG_regexp_tier_up;
   }

   // Parses the RegExp pattern and prepares the JSRegExp object with
   // generic data and choice of implementation - as well as what
   // the implementation wants to store in the data field.
   // Returns false if compilation fails.
   V8_WARN_UNUSED_RESULT static MaybeHandle<Object> Compile(
       Isolate* isolate, Handle<JSRegExp> re, Handle<String> pattern,
       JSRegExp::Flags flags, uint32_t backtrack_limit);

   // Ensures that a regexp is fully compiled and ready to be executed on a
   // subject string.  Returns true on success. Return false on failure, and
   // then an exception will be pending.
   V8_WARN_UNUSED_RESULT static bool EnsureFullyCompiled(Isolate* isolate,
                                                         Handle<JSRegExp> re,
                                                         Handle<String> subject);

   enum CallOrigin : int {
     kFromRuntime = 0,
     kFromJs = 1,
   };

   // See ECMA-262 section 15.10.6.2.
   // This function calls the garbage collector if necessary.
   V8_EXPORT_PRIVATE V8_WARN_UNUSED_RESULT static MaybeHandle<Object> Exec(
       Isolate* isolate, Handle<JSRegExp> regexp, Handle<String> subject,
       int index, Handle<RegExpMatchInfo> last_match_info);

   V8_EXPORT_PRIVATE V8_WARN_UNUSED_RESULT static MaybeHandle<Object>
   ExperimentalOneshotExec(Isolate* isolate, Handle<JSRegExp> regexp,
                           Handle<String> subject, int index,
                           Handle<RegExpMatchInfo> last_match_info);

   // Integral return values used throughout regexp code layers.
   static constexpr int kInternalRegExpFailure = 0;
   static constexpr int kInternalRegExpSuccess = 1;
   static constexpr int kInternalRegExpException = -1;
   static constexpr int kInternalRegExpRetry = -2;
   static constexpr int kInternalRegExpFallbackToExperimental = -3;
   static constexpr int kInternalRegExpSmallestResult = -3;

   enum IrregexpResult : int32_t {
     RE_FAILURE = kInternalRegExpFailure,
     RE_SUCCESS = kInternalRegExpSuccess,
     RE_EXCEPTION = kInternalRegExpException,
     RE_RETRY = kInternalRegExpRetry,
     RE_FALLBACK_TO_EXPERIMENTAL = kInternalRegExpFallbackToExperimental,
   };

   // Set last match info.  If match is nullptr, then setting captures is
   // omitted.
   static Handle<RegExpMatchInfo> SetLastMatchInfo(
       Isolate* isolate, Handle<RegExpMatchInfo> last_match_info,
       Handle<String> subject, int capture_count, int32_t* match);

   V8_EXPORT_PRIVATE static bool CompileForTesting(Isolate* isolate, Zone* zone,
                                                   RegExpCompileData* input,
                                                   JSRegExp::Flags flags,
                                                   Handle<String> pattern,
                                                   Handle<String> sample_subject,
                                                   bool is_one_byte);

   V8_EXPORT_PRIVATE static void DotPrintForTesting(const char* label,
                                                    RegExpNode* node);

   static const int kRegExpTooLargeToOptimize = 20 * KB;

   V8_WARN_UNUSED_RESULT
   static MaybeHandle<Object> ThrowRegExpException(Isolate* isolate,
                                                   Handle<JSRegExp> re,
                                                   Handle<String> pattern,
                                                   RegExpError error);
   static void ThrowRegExpException(Isolate* isolate, Handle<JSRegExp> re,
                                    RegExpError error_text);

   static bool IsUnmodifiedRegExp(Isolate* isolate, Handle<JSRegExp> regexp);
 };

 // Uses a special global mode of irregexp-generated code to perform a global
 // search and return multiple results at once. As such, this is essentially an
 // iterator over multiple results (retrieved batch-wise in advance).
 class RegExpGlobalCache final {
  public:
   RegExpGlobalCache(Handle<JSRegExp> regexp, Handle<String> subject,
                     Isolate* isolate);

   ~RegExpGlobalCache();

   // Fetch the next entry in the cache for global regexp match results.
   // This does not set the last match info.  Upon failure, nullptr is
   // returned. The cause can be checked with Result().  The previous result is
   // still in available in memory when a failure happens.
   int32_t* FetchNext();

   int32_t* LastSuccessfulMatch();

   bool HasException() { return num_matches_ < 0; }

  private:
   int AdvanceZeroLength(int last_index);

   int num_matches_;
   int max_matches_;
   int current_match_index_;
   int registers_per_match_;
   // Pointer to the last set of captures.
   int32_t* register_array_;
   int register_array_size_;
   Handle<JSRegExp> regexp_;
   Handle<String> subject_;
   Isolate* isolate_;
 };

 // Caches results for specific regexp queries on the isolate. At the time of
 // writing, this is used during global calls to RegExp.prototype.exec and
 // @@split.
 class RegExpResultsCache final : public AllStatic {
  public:
   enum ResultsCacheType { REGEXP_MULTIPLE_INDICES, STRING_SPLIT_SUBSTRINGS };

   // Attempt to retrieve a cached result.  On failure, 0 is returned as a Smi.
   // On success, the returned result is guaranteed to be a COW-array.
   static Object Lookup(Heap* heap, String key_string, Object key_pattern,
                        FixedArray* last_match_out, ResultsCacheType type);
   // Attempt to add value_array to the cache specified by type.  On success,
   // value_array is turned into a COW-array.
   static void Enter(Isolate* isolate, Handle<String> key_string,
                     Handle<Object> key_pattern, Handle<FixedArray> value_array,
                     Handle<FixedArray> last_match_cache, ResultsCacheType type);
   static void Clear(FixedArray cache);

   static constexpr int kRegExpResultsCacheSize = 0x100;

  private:
   static constexpr int kStringOffset = 0;
   static constexpr int kPatternOffset = 1;
   static constexpr int kArrayOffset = 2;
   static constexpr int kLastMatchOffset = 3;
   static constexpr int kArrayEntriesPerCacheEntry = 4;
 };

 }  // namespace internal
 }  // namespace v8

 #endif  // V8_REGEXP_REGEXP_H_
	// Copyright 2012 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef V8_REGEXP_REGEXP_H_
	#define V8_REGEXP_REGEXP_H_

	#include "src/objects/js-regexp.h"
	#include "src/regexp/regexp-error.h"

	namespace v8 {
	namespace internal {

	class RegExpNode;
	class RegExpTree;

	enum class RegExpCompilationTarget : int { kBytecode, kNative };

	// TODO(jgruber): Do not expose in regexp.h.
	// TODO(jgruber): Consider splitting between ParseData and CompileData.
	struct RegExpCompileData {
	// The parsed AST as produced by the RegExpParser.
	RegExpTree* tree = nullptr;

	// The compiled Node graph as produced by RegExpTree::ToNode methods.
	RegExpNode* node = nullptr;

	// Either the generated code as produced by the compiler or a trampoline
	// to the interpreter.
	Handle<Object> code;

	// True, iff the pattern is a 'simple' atom with zero captures. In other
	// words, the pattern consists of a string with no metacharacters and special
	// regexp features, and can be implemented as a standard string search.
	bool simple = true;

	// True, iff the pattern is anchored at the start of the string with '^'.
	bool contains_anchor = false;

	// Only use if the pattern contains named captures. If so, this contains a
	// mapping of capture names to capture indices.
	Handle<FixedArray> capture_name_map;

	// The error message. Only used if an error occurred during parsing or
	// compilation.
	RegExpError error = RegExpError::kNone;

	// The position at which the error was detected. Only used if an
	// error occurred.
	int error_pos = 0;

	// The number of capture groups, without the global capture \0.
	int capture_count = 0;

	// The number of registers used by the generated code.
	int register_count = 0;

	// The compilation target (bytecode or native code).
	RegExpCompilationTarget compilation_target;
	};

	class RegExp final : public AllStatic {
	public:
	// Whether the irregexp engine generates interpreter bytecode.
	static bool CanGenerateBytecode() {
	return FLAG_regexp_interpret_all \|\| FLAG_regexp_tier_up;
	}

	// Parses the RegExp pattern and prepares the JSRegExp object with
	// generic data and choice of implementation - as well as what
	// the implementation wants to store in the data field.
	// Returns false if compilation fails.
	V8_WARN_UNUSED_RESULT static MaybeHandle<Object> Compile(
	Isolate* isolate, Handle<JSRegExp> re, Handle<String> pattern,
	JSRegExp::Flags flags, uint32_t backtrack_limit);

	// Ensures that a regexp is fully compiled and ready to be executed on a
	// subject string. Returns true on success. Return false on failure, and
	// then an exception will be pending.
	V8_WARN_UNUSED_RESULT static bool EnsureFullyCompiled(Isolate* isolate,
	Handle<JSRegExp> re,
	Handle<String> subject);

	enum CallOrigin : int {
	kFromRuntime = 0,
	kFromJs = 1,
	};

	// See ECMA-262 section 15.10.6.2.
	// This function calls the garbage collector if necessary.
	V8_EXPORT_PRIVATE V8_WARN_UNUSED_RESULT static MaybeHandle<Object> Exec(
	Isolate* isolate, Handle<JSRegExp> regexp, Handle<String> subject,
	int index, Handle<RegExpMatchInfo> last_match_info);

	V8_EXPORT_PRIVATE V8_WARN_UNUSED_RESULT static MaybeHandle<Object>
	ExperimentalOneshotExec(Isolate* isolate, Handle<JSRegExp> regexp,
	Handle<String> subject, int index,
	Handle<RegExpMatchInfo> last_match_info);

	// Integral return values used throughout regexp code layers.
	static constexpr int kInternalRegExpFailure = 0;
	static constexpr int kInternalRegExpSuccess = 1;
	static constexpr int kInternalRegExpException = -1;
	static constexpr int kInternalRegExpRetry = -2;
	static constexpr int kInternalRegExpFallbackToExperimental = -3;
	static constexpr int kInternalRegExpSmallestResult = -3;

	enum IrregexpResult : int32_t {
	RE_FAILURE = kInternalRegExpFailure,
	RE_SUCCESS = kInternalRegExpSuccess,
	RE_EXCEPTION = kInternalRegExpException,
	RE_RETRY = kInternalRegExpRetry,
	RE_FALLBACK_TO_EXPERIMENTAL = kInternalRegExpFallbackToExperimental,
	};

	// Set last match info. If match is nullptr, then setting captures is
	// omitted.
	static Handle<RegExpMatchInfo> SetLastMatchInfo(
	Isolate* isolate, Handle<RegExpMatchInfo> last_match_info,
	Handle<String> subject, int capture_count, int32_t* match);

	V8_EXPORT_PRIVATE static bool CompileForTesting(Isolate* isolate, Zone* zone,
	RegExpCompileData* input,
	JSRegExp::Flags flags,
	Handle<String> pattern,
	Handle<String> sample_subject,
	bool is_one_byte);

	V8_EXPORT_PRIVATE static void DotPrintForTesting(const char* label,
	RegExpNode* node);

	static const int kRegExpTooLargeToOptimize = 20 * KB;

	V8_WARN_UNUSED_RESULT
	static MaybeHandle<Object> ThrowRegExpException(Isolate* isolate,
	Handle<JSRegExp> re,
	Handle<String> pattern,
	RegExpError error);
	static void ThrowRegExpException(Isolate* isolate, Handle<JSRegExp> re,
	RegExpError error_text);

	static bool IsUnmodifiedRegExp(Isolate* isolate, Handle<JSRegExp> regexp);
	};

	// Uses a special global mode of irregexp-generated code to perform a global
	// search and return multiple results at once. As such, this is essentially an
	// iterator over multiple results (retrieved batch-wise in advance).
	class RegExpGlobalCache final {
	public:
	RegExpGlobalCache(Handle<JSRegExp> regexp, Handle<String> subject,
	Isolate* isolate);

	~RegExpGlobalCache();

	// Fetch the next entry in the cache for global regexp match results.
	// This does not set the last match info. Upon failure, nullptr is
	// returned. The cause can be checked with Result(). The previous result is
	// still in available in memory when a failure happens.
	int32_t* FetchNext();

	int32_t* LastSuccessfulMatch();

	bool HasException() { return num_matches_ < 0; }

	private:
	int AdvanceZeroLength(int last_index);

	int num_matches_;
	int max_matches_;
	int current_match_index_;
	int registers_per_match_;
	// Pointer to the last set of captures.
	int32_t* register_array_;
	int register_array_size_;
	Handle<JSRegExp> regexp_;
	Handle<String> subject_;
	Isolate* isolate_;
	};

	// Caches results for specific regexp queries on the isolate. At the time of
	// writing, this is used during global calls to RegExp.prototype.exec and
	// @@split.
	class RegExpResultsCache final : public AllStatic {
	public:
	enum ResultsCacheType { REGEXP_MULTIPLE_INDICES, STRING_SPLIT_SUBSTRINGS };

	// Attempt to retrieve a cached result. On failure, 0 is returned as a Smi.
	// On success, the returned result is guaranteed to be a COW-array.
	static Object Lookup(Heap* heap, String key_string, Object key_pattern,
	FixedArray* last_match_out, ResultsCacheType type);
	// Attempt to add value_array to the cache specified by type. On success,
	// value_array is turned into a COW-array.
	static void Enter(Isolate* isolate, Handle<String> key_string,
	Handle<Object> key_pattern, Handle<FixedArray> value_array,
	Handle<FixedArray> last_match_cache, ResultsCacheType type);
	static void Clear(FixedArray cache);

	static constexpr int kRegExpResultsCacheSize = 0x100;

	private:
	static constexpr int kStringOffset = 0;
	static constexpr int kPatternOffset = 1;
	static constexpr int kArrayOffset = 2;
	static constexpr int kLastMatchOffset = 3;
	static constexpr int kArrayEntriesPerCacheEntry = 4;
	};

	} // namespace internal
	} // namespace v8

	#endif // V8_REGEXP_REGEXP_H_