| Index: runtime/vm/regexp_ast.h
|
| diff --git a/runtime/vm/regexp_ast.h b/runtime/vm/regexp_ast.h
|
| index e0d68c9e8dd6494d1b3d5617e1361f171025eb71..2be61ec7c42fc7fd07d45a861758db7c0219029e 100644
|
| --- a/runtime/vm/regexp_ast.h
|
| +++ b/runtime/vm/regexp_ast.h
|
| @@ -5,12 +5,13 @@
|
| #ifndef VM_REGEXP_AST_H_
|
| #define VM_REGEXP_AST_H_
|
|
|
| -// SNIP
|
| +#include "platform/globals.h"
|
| +#include "platform/utils.h"
|
| +#include "vm/allocation.h"
|
| +#include "vm/regexp.h"
|
|
|
| namespace dart {
|
|
|
| -// SNIP
|
| -
|
| class RegExpAlternative;
|
| class RegExpAssertion;
|
| class RegExpAtom;
|
| @@ -24,9 +25,8 @@ class RegExpLookahead;
|
| class RegExpQuantifier;
|
| class RegExpText;
|
|
|
| -// SNIP
|
|
|
| -class RegExpVisitor BASE_EMBEDDED {
|
| +class RegExpVisitor : public ValueObject {
|
| public:
|
| virtual ~RegExpVisitor() { }
|
| #define MAKE_CASE(Name) \
|
| @@ -36,74 +36,74 @@ class RegExpVisitor BASE_EMBEDDED {
|
| };
|
|
|
|
|
| -class RegExpTree : public ZoneObject {
|
| +class RegExpTree : public ZoneAllocated {
|
| public:
|
| - static const int kInfinity = kMaxInt;
|
| + static const intptr_t kInfinity = kMaxInt32;
|
| virtual ~RegExpTree() {}
|
| virtual void* Accept(RegExpVisitor* visitor, void* data) = 0;
|
| virtual RegExpNode* ToNode(RegExpCompiler* compiler,
|
| RegExpNode* on_success) = 0;
|
| - virtual bool IsTextElement() { return false; }
|
| - virtual bool IsAnchoredAtStart() { return false; }
|
| - virtual bool IsAnchoredAtEnd() { return false; }
|
| - virtual int min_match() = 0;
|
| - virtual int max_match() = 0;
|
| + virtual bool IsTextElement() const { return false; }
|
| + virtual bool IsAnchoredAtStart() const { return false; }
|
| + virtual bool IsAnchoredAtEnd() const { return false; }
|
| + virtual intptr_t min_match() const = 0;
|
| + virtual intptr_t max_match() const = 0;
|
| // Returns the interval of registers used for captures within this
|
| // expression.
|
| - virtual Interval CaptureRegisters() { return Interval::Empty(); }
|
| - virtual void AppendToText(RegExpText* text, Zone* zone);
|
| - OStream& Print(OStream& os, Zone* zone); // NOLINT
|
| + virtual Interval CaptureRegisters() const { return Interval::Empty(); }
|
| + virtual void AppendToText(RegExpText* text);
|
| + void Print();
|
| #define MAKE_ASTYPE(Name) \
|
| virtual RegExp##Name* As##Name(); \
|
| - virtual bool Is##Name();
|
| + virtual bool Is##Name() const;
|
| FOR_EACH_REG_EXP_TREE_TYPE(MAKE_ASTYPE)
|
| #undef MAKE_ASTYPE
|
| };
|
|
|
|
|
| -class RegExpDisjunction FINAL : public RegExpTree {
|
| +class RegExpDisjunction : public RegExpTree {
|
| public:
|
| - explicit RegExpDisjunction(ZoneList<RegExpTree*>* alternatives);
|
| - virtual void* Accept(RegExpVisitor* visitor, void* data) OVERRIDE;
|
| + explicit RegExpDisjunction(ZoneGrowableArray<RegExpTree*>* alternatives);
|
| + virtual void* Accept(RegExpVisitor* visitor, void* data);
|
| virtual RegExpNode* ToNode(RegExpCompiler* compiler,
|
| - RegExpNode* on_success) OVERRIDE;
|
| - virtual RegExpDisjunction* AsDisjunction() OVERRIDE;
|
| - virtual Interval CaptureRegisters() OVERRIDE;
|
| - virtual bool IsDisjunction() OVERRIDE;
|
| - virtual bool IsAnchoredAtStart() OVERRIDE;
|
| - virtual bool IsAnchoredAtEnd() OVERRIDE;
|
| - virtual int min_match() OVERRIDE { return min_match_; }
|
| - virtual int max_match() OVERRIDE { return max_match_; }
|
| - ZoneList<RegExpTree*>* alternatives() { return alternatives_; }
|
| + RegExpNode* on_success);
|
| + virtual RegExpDisjunction* AsDisjunction();
|
| + virtual Interval CaptureRegisters() const;
|
| + virtual bool IsDisjunction() const;
|
| + virtual bool IsAnchoredAtStart() const;
|
| + virtual bool IsAnchoredAtEnd() const;
|
| + virtual intptr_t min_match() const { return min_match_; }
|
| + virtual intptr_t max_match() const { return max_match_; }
|
| + ZoneGrowableArray<RegExpTree*>* alternatives() const { return alternatives_; }
|
| private:
|
| - ZoneList<RegExpTree*>* alternatives_;
|
| - int min_match_;
|
| - int max_match_;
|
| + ZoneGrowableArray<RegExpTree*>* alternatives_;
|
| + intptr_t min_match_;
|
| + intptr_t max_match_;
|
| };
|
|
|
|
|
| -class RegExpAlternative FINAL : public RegExpTree {
|
| +class RegExpAlternative : public RegExpTree {
|
| public:
|
| - explicit RegExpAlternative(ZoneList<RegExpTree*>* nodes);
|
| - virtual void* Accept(RegExpVisitor* visitor, void* data) OVERRIDE;
|
| + explicit RegExpAlternative(ZoneGrowableArray<RegExpTree*>* nodes);
|
| + virtual void* Accept(RegExpVisitor* visitor, void* data);
|
| virtual RegExpNode* ToNode(RegExpCompiler* compiler,
|
| - RegExpNode* on_success) OVERRIDE;
|
| - virtual RegExpAlternative* AsAlternative() OVERRIDE;
|
| - virtual Interval CaptureRegisters() OVERRIDE;
|
| - virtual bool IsAlternative() OVERRIDE;
|
| - virtual bool IsAnchoredAtStart() OVERRIDE;
|
| - virtual bool IsAnchoredAtEnd() OVERRIDE;
|
| - virtual int min_match() OVERRIDE { return min_match_; }
|
| - virtual int max_match() OVERRIDE { return max_match_; }
|
| - ZoneList<RegExpTree*>* nodes() { return nodes_; }
|
| + RegExpNode* on_success);
|
| + virtual RegExpAlternative* AsAlternative();
|
| + virtual Interval CaptureRegisters() const;
|
| + virtual bool IsAlternative() const;
|
| + virtual bool IsAnchoredAtStart() const;
|
| + virtual bool IsAnchoredAtEnd() const;
|
| + virtual intptr_t min_match() const { return min_match_; }
|
| + virtual intptr_t max_match() const { return max_match_; }
|
| + ZoneGrowableArray<RegExpTree*>* nodes() const { return nodes_; }
|
| private:
|
| - ZoneList<RegExpTree*>* nodes_;
|
| - int min_match_;
|
| - int max_match_;
|
| + ZoneGrowableArray<RegExpTree*>* nodes_;
|
| + intptr_t min_match_;
|
| + intptr_t max_match_;
|
| };
|
|
|
|
|
| -class RegExpAssertion FINAL : public RegExpTree {
|
| +class RegExpAssertion : public RegExpTree {
|
| public:
|
| enum AssertionType {
|
| START_OF_LINE,
|
| @@ -114,65 +114,70 @@ class RegExpAssertion FINAL : public RegExpTree {
|
| NON_BOUNDARY
|
| };
|
| explicit RegExpAssertion(AssertionType type) : assertion_type_(type) { }
|
| - virtual void* Accept(RegExpVisitor* visitor, void* data) OVERRIDE;
|
| + virtual void* Accept(RegExpVisitor* visitor, void* data);
|
| virtual RegExpNode* ToNode(RegExpCompiler* compiler,
|
| - RegExpNode* on_success) OVERRIDE;
|
| - virtual RegExpAssertion* AsAssertion() OVERRIDE;
|
| - virtual bool IsAssertion() OVERRIDE;
|
| - virtual bool IsAnchoredAtStart() OVERRIDE;
|
| - virtual bool IsAnchoredAtEnd() OVERRIDE;
|
| - virtual int min_match() OVERRIDE { return 0; }
|
| - virtual int max_match() OVERRIDE { return 0; }
|
| - AssertionType assertion_type() { return assertion_type_; }
|
| + RegExpNode* on_success);
|
| + virtual RegExpAssertion* AsAssertion();
|
| + virtual bool IsAssertion() const;
|
| + virtual bool IsAnchoredAtStart() const;
|
| + virtual bool IsAnchoredAtEnd() const;
|
| + virtual intptr_t min_match() const { return 0; }
|
| + virtual intptr_t max_match() const { return 0; }
|
| + AssertionType assertion_type() const { return assertion_type_; }
|
| private:
|
| AssertionType assertion_type_;
|
| };
|
|
|
|
|
| -class CharacterSet FINAL BASE_EMBEDDED {
|
| +class CharacterSet : public ValueObject {
|
| public:
|
| - explicit CharacterSet(uc16 standard_set_type)
|
| + explicit CharacterSet(uint16_t standard_set_type)
|
| : ranges_(NULL),
|
| standard_set_type_(standard_set_type) {}
|
| - explicit CharacterSet(ZoneList<CharacterRange>* ranges)
|
| + explicit CharacterSet(ZoneGrowableArray<CharacterRange>* ranges)
|
| : ranges_(ranges),
|
| standard_set_type_(0) {}
|
| - ZoneList<CharacterRange>* ranges(Zone* zone);
|
| - uc16 standard_set_type() { return standard_set_type_; }
|
| - void set_standard_set_type(uc16 special_set_type) {
|
| + CharacterSet(const CharacterSet& that)
|
| + : ValueObject(),
|
| + ranges_(that.ranges_),
|
| + standard_set_type_(that.standard_set_type_) {}
|
| + ZoneGrowableArray<CharacterRange>* ranges();
|
| + uint16_t standard_set_type() const { return standard_set_type_; }
|
| + void set_standard_set_type(uint16_t special_set_type) {
|
| standard_set_type_ = special_set_type;
|
| }
|
| bool is_standard() { return standard_set_type_ != 0; }
|
| void Canonicalize();
|
| private:
|
| - ZoneList<CharacterRange>* ranges_;
|
| + ZoneGrowableArray<CharacterRange>* ranges_;
|
| // If non-zero, the value represents a standard set (e.g., all whitespace
|
| // characters) without having to expand the ranges.
|
| - uc16 standard_set_type_;
|
| + uint16_t standard_set_type_;
|
| };
|
|
|
|
|
| -class RegExpCharacterClass FINAL : public RegExpTree {
|
| +class RegExpCharacterClass : public RegExpTree {
|
| public:
|
| - RegExpCharacterClass(ZoneList<CharacterRange>* ranges, bool is_negated)
|
| + RegExpCharacterClass(ZoneGrowableArray<CharacterRange>* ranges,
|
| + bool is_negated)
|
| : set_(ranges),
|
| is_negated_(is_negated) { }
|
| - explicit RegExpCharacterClass(uc16 type)
|
| + explicit RegExpCharacterClass(uint16_t type)
|
| : set_(type),
|
| is_negated_(false) { }
|
| - virtual void* Accept(RegExpVisitor* visitor, void* data) OVERRIDE;
|
| + virtual void* Accept(RegExpVisitor* visitor, void* data);
|
| virtual RegExpNode* ToNode(RegExpCompiler* compiler,
|
| - RegExpNode* on_success) OVERRIDE;
|
| - virtual RegExpCharacterClass* AsCharacterClass() OVERRIDE;
|
| - virtual bool IsCharacterClass() OVERRIDE;
|
| - virtual bool IsTextElement() OVERRIDE { return true; }
|
| - virtual int min_match() OVERRIDE { return 1; }
|
| - virtual int max_match() OVERRIDE { return 1; }
|
| - virtual void AppendToText(RegExpText* text, Zone* zone) OVERRIDE;
|
| - CharacterSet character_set() { return set_; }
|
| + RegExpNode* on_success);
|
| + virtual RegExpCharacterClass* AsCharacterClass();
|
| + virtual bool IsCharacterClass() const;
|
| + virtual bool IsTextElement() const { return true; }
|
| + virtual intptr_t min_match() const { return 1; }
|
| + virtual intptr_t max_match() const { return 1; }
|
| + virtual void AppendToText(RegExpText* text);
|
| + CharacterSet character_set() const { return set_; }
|
| // TODO(lrn): Remove need for complex version if is_standard that
|
| // recognizes a mangled standard set and just do { return set_.is_special(); }
|
| - bool is_standard(Zone* zone);
|
| + bool is_standard();
|
| // Returns a value representing the standard character set if is_standard()
|
| // returns true.
|
| // Currently used values are:
|
| @@ -184,9 +189,11 @@ class RegExpCharacterClass FINAL : public RegExpTree {
|
| // D : non-ASCII digit
|
| // . : non-unicode non-newline
|
| // * : All characters
|
| - uc16 standard_type() { return set_.standard_set_type(); }
|
| - ZoneList<CharacterRange>* ranges(Zone* zone) { return set_.ranges(zone); }
|
| - bool is_negated() { return is_negated_; }
|
| + uint16_t standard_type() const { return set_.standard_set_type(); }
|
| + ZoneGrowableArray<CharacterRange>* ranges() {
|
| + return set_.ranges();
|
| + }
|
| + bool is_negated() const { return is_negated_; }
|
|
|
| private:
|
| CharacterSet set_;
|
| @@ -194,52 +201,53 @@ class RegExpCharacterClass FINAL : public RegExpTree {
|
| };
|
|
|
|
|
| -class RegExpAtom FINAL : public RegExpTree {
|
| +class RegExpAtom : public RegExpTree {
|
| public:
|
| - explicit RegExpAtom(Vector<const uc16> data) : data_(data) { }
|
| - virtual void* Accept(RegExpVisitor* visitor, void* data) OVERRIDE;
|
| + explicit RegExpAtom(ZoneGrowableArray<uint16_t>* data) : data_(data) { }
|
| + virtual void* Accept(RegExpVisitor* visitor, void* data);
|
| virtual RegExpNode* ToNode(RegExpCompiler* compiler,
|
| - RegExpNode* on_success) OVERRIDE;
|
| - virtual RegExpAtom* AsAtom() OVERRIDE;
|
| - virtual bool IsAtom() OVERRIDE;
|
| - virtual bool IsTextElement() OVERRIDE { return true; }
|
| - virtual int min_match() OVERRIDE { return data_.length(); }
|
| - virtual int max_match() OVERRIDE { return data_.length(); }
|
| - virtual void AppendToText(RegExpText* text, Zone* zone) OVERRIDE;
|
| - Vector<const uc16> data() { return data_; }
|
| - int length() { return data_.length(); }
|
| + RegExpNode* on_success);
|
| + virtual RegExpAtom* AsAtom();
|
| + virtual bool IsAtom() const;
|
| + virtual bool IsTextElement() const { return true; }
|
| + virtual intptr_t min_match() const { return data_->length(); }
|
| + virtual intptr_t max_match() const { return data_->length(); }
|
| + virtual void AppendToText(RegExpText* text);
|
| + ZoneGrowableArray<uint16_t>* data() const { return data_; }
|
| + intptr_t length() const { return data_->length(); }
|
| private:
|
| - Vector<const uc16> data_;
|
| + ZoneGrowableArray<uint16_t>* data_;
|
| };
|
|
|
|
|
| -class RegExpText FINAL : public RegExpTree {
|
| +class RegExpText : public RegExpTree {
|
| public:
|
| - explicit RegExpText(Zone* zone) : elements_(2, zone), length_(0) {}
|
| - virtual void* Accept(RegExpVisitor* visitor, void* data) OVERRIDE;
|
| + RegExpText() : elements_(2), length_(0) {}
|
| + virtual void* Accept(RegExpVisitor* visitor, void* data);
|
| virtual RegExpNode* ToNode(RegExpCompiler* compiler,
|
| - RegExpNode* on_success) OVERRIDE;
|
| - virtual RegExpText* AsText() OVERRIDE;
|
| - virtual bool IsText() OVERRIDE;
|
| - virtual bool IsTextElement() OVERRIDE { return true; }
|
| - virtual int min_match() OVERRIDE { return length_; }
|
| - virtual int max_match() OVERRIDE { return length_; }
|
| - virtual void AppendToText(RegExpText* text, Zone* zone) OVERRIDE;
|
| - void AddElement(TextElement elm, Zone* zone) {
|
| - elements_.Add(elm, zone);
|
| + RegExpNode* on_success);
|
| + virtual RegExpText* AsText();
|
| + virtual bool IsText() const;
|
| + virtual bool IsTextElement() const { return true; }
|
| + virtual intptr_t min_match() const { return length_; }
|
| + virtual intptr_t max_match() const { return length_; }
|
| + virtual void AppendToText(RegExpText* text);
|
| + void AddElement(TextElement elm) {
|
| + elements_.Add(elm);
|
| length_ += elm.length();
|
| }
|
| - ZoneList<TextElement>* elements() { return &elements_; }
|
| + GrowableArray<TextElement>* elements() { return &elements_; }
|
| private:
|
| - ZoneList<TextElement> elements_;
|
| - int length_;
|
| + GrowableArray<TextElement> elements_;
|
| + intptr_t length_;
|
| };
|
|
|
|
|
| -class RegExpQuantifier FINAL : public RegExpTree {
|
| +class RegExpQuantifier : public RegExpTree {
|
| public:
|
| enum QuantifierType { GREEDY, NON_GREEDY, POSSESSIVE };
|
| - RegExpQuantifier(int min, int max, QuantifierType type, RegExpTree* body)
|
| + RegExpQuantifier(intptr_t min, intptr_t max,
|
| + QuantifierType type, RegExpTree* body)
|
| : body_(body),
|
| min_(min),
|
| max_(max),
|
| @@ -251,136 +259,134 @@ class RegExpQuantifier FINAL : public RegExpTree {
|
| max_match_ = max * body->max_match();
|
| }
|
| }
|
| - virtual void* Accept(RegExpVisitor* visitor, void* data) OVERRIDE;
|
| + virtual void* Accept(RegExpVisitor* visitor, void* data);
|
| virtual RegExpNode* ToNode(RegExpCompiler* compiler,
|
| - RegExpNode* on_success) OVERRIDE;
|
| - static RegExpNode* ToNode(int min,
|
| - int max,
|
| + RegExpNode* on_success);
|
| + static RegExpNode* ToNode(intptr_t min,
|
| + intptr_t max,
|
| bool is_greedy,
|
| RegExpTree* body,
|
| RegExpCompiler* compiler,
|
| RegExpNode* on_success,
|
| bool not_at_start = false);
|
| - virtual RegExpQuantifier* AsQuantifier() OVERRIDE;
|
| - virtual Interval CaptureRegisters() OVERRIDE;
|
| - virtual bool IsQuantifier() OVERRIDE;
|
| - virtual int min_match() OVERRIDE { return min_match_; }
|
| - virtual int max_match() OVERRIDE { return max_match_; }
|
| - int min() { return min_; }
|
| - int max() { return max_; }
|
| - bool is_possessive() { return quantifier_type_ == POSSESSIVE; }
|
| - bool is_non_greedy() { return quantifier_type_ == NON_GREEDY; }
|
| - bool is_greedy() { return quantifier_type_ == GREEDY; }
|
| - RegExpTree* body() { return body_; }
|
| + virtual RegExpQuantifier* AsQuantifier();
|
| + virtual Interval CaptureRegisters() const;
|
| + virtual bool IsQuantifier() const;
|
| + virtual intptr_t min_match() const { return min_match_; }
|
| + virtual intptr_t max_match() const { return max_match_; }
|
| + intptr_t min() const { return min_; }
|
| + intptr_t max() const { return max_; }
|
| + bool is_possessive() const { return quantifier_type_ == POSSESSIVE; }
|
| + bool is_non_greedy() const { return quantifier_type_ == NON_GREEDY; }
|
| + bool is_greedy() const { return quantifier_type_ == GREEDY; }
|
| + RegExpTree* body() const { return body_; }
|
|
|
| private:
|
| RegExpTree* body_;
|
| - int min_;
|
| - int max_;
|
| - int min_match_;
|
| - int max_match_;
|
| + intptr_t min_;
|
| + intptr_t max_;
|
| + intptr_t min_match_;
|
| + intptr_t max_match_;
|
| QuantifierType quantifier_type_;
|
| };
|
|
|
|
|
| -class RegExpCapture FINAL : public RegExpTree {
|
| +class RegExpCapture : public RegExpTree {
|
| public:
|
| - explicit RegExpCapture(RegExpTree* body, int index)
|
| + explicit RegExpCapture(RegExpTree* body, intptr_t index)
|
| : body_(body), index_(index) { }
|
| - virtual void* Accept(RegExpVisitor* visitor, void* data) OVERRIDE;
|
| + virtual void* Accept(RegExpVisitor* visitor, void* data);
|
| virtual RegExpNode* ToNode(RegExpCompiler* compiler,
|
| - RegExpNode* on_success) OVERRIDE;
|
| + RegExpNode* on_success);
|
| static RegExpNode* ToNode(RegExpTree* body,
|
| - int index,
|
| + intptr_t index,
|
| RegExpCompiler* compiler,
|
| RegExpNode* on_success);
|
| - virtual RegExpCapture* AsCapture() OVERRIDE;
|
| - virtual bool IsAnchoredAtStart() OVERRIDE;
|
| - virtual bool IsAnchoredAtEnd() OVERRIDE;
|
| - virtual Interval CaptureRegisters() OVERRIDE;
|
| - virtual bool IsCapture() OVERRIDE;
|
| - virtual int min_match() OVERRIDE { return body_->min_match(); }
|
| - virtual int max_match() OVERRIDE { return body_->max_match(); }
|
| - RegExpTree* body() { return body_; }
|
| - int index() { return index_; }
|
| - static int StartRegister(int index) { return index * 2; }
|
| - static int EndRegister(int index) { return index * 2 + 1; }
|
| + virtual RegExpCapture* AsCapture();
|
| + virtual bool IsAnchoredAtStart() const;
|
| + virtual bool IsAnchoredAtEnd() const;
|
| + virtual Interval CaptureRegisters() const;
|
| + virtual bool IsCapture() const;
|
| + virtual intptr_t min_match() const { return body_->min_match(); }
|
| + virtual intptr_t max_match() const { return body_->max_match(); }
|
| + RegExpTree* body() const { return body_; }
|
| + intptr_t index() const { return index_; }
|
| + static intptr_t StartRegister(intptr_t index) { return index * 2; }
|
| + static intptr_t EndRegister(intptr_t index) { return index * 2 + 1; }
|
|
|
| private:
|
| RegExpTree* body_;
|
| - int index_;
|
| + intptr_t index_;
|
| };
|
|
|
|
|
| -class RegExpLookahead FINAL : public RegExpTree {
|
| +class RegExpLookahead : public RegExpTree {
|
| public:
|
| RegExpLookahead(RegExpTree* body,
|
| bool is_positive,
|
| - int capture_count,
|
| - int capture_from)
|
| + intptr_t capture_count,
|
| + intptr_t capture_from)
|
| : body_(body),
|
| is_positive_(is_positive),
|
| capture_count_(capture_count),
|
| capture_from_(capture_from) { }
|
|
|
| - virtual void* Accept(RegExpVisitor* visitor, void* data) OVERRIDE;
|
| + virtual void* Accept(RegExpVisitor* visitor, void* data);
|
| virtual RegExpNode* ToNode(RegExpCompiler* compiler,
|
| - RegExpNode* on_success) OVERRIDE;
|
| - virtual RegExpLookahead* AsLookahead() OVERRIDE;
|
| - virtual Interval CaptureRegisters() OVERRIDE;
|
| - virtual bool IsLookahead() OVERRIDE;
|
| - virtual bool IsAnchoredAtStart() OVERRIDE;
|
| - virtual int min_match() OVERRIDE { return 0; }
|
| - virtual int max_match() OVERRIDE { return 0; }
|
| - RegExpTree* body() { return body_; }
|
| - bool is_positive() { return is_positive_; }
|
| - int capture_count() { return capture_count_; }
|
| - int capture_from() { return capture_from_; }
|
| + RegExpNode* on_success);
|
| + virtual RegExpLookahead* AsLookahead();
|
| + virtual Interval CaptureRegisters() const;
|
| + virtual bool IsLookahead() const;
|
| + virtual bool IsAnchoredAtStart() const;
|
| + virtual intptr_t min_match() const { return 0; }
|
| + virtual intptr_t max_match() const { return 0; }
|
| + RegExpTree* body() const { return body_; }
|
| + bool is_positive() const { return is_positive_; }
|
| + intptr_t capture_count() const { return capture_count_; }
|
| + intptr_t capture_from() const { return capture_from_; }
|
|
|
| private:
|
| RegExpTree* body_;
|
| bool is_positive_;
|
| - int capture_count_;
|
| - int capture_from_;
|
| + intptr_t capture_count_;
|
| + intptr_t capture_from_;
|
| };
|
|
|
|
|
| -class RegExpBackReference FINAL : public RegExpTree {
|
| +class RegExpBackReference : public RegExpTree {
|
| public:
|
| explicit RegExpBackReference(RegExpCapture* capture)
|
| : capture_(capture) { }
|
| - virtual void* Accept(RegExpVisitor* visitor, void* data) OVERRIDE;
|
| + virtual void* Accept(RegExpVisitor* visitor, void* data);
|
| virtual RegExpNode* ToNode(RegExpCompiler* compiler,
|
| - RegExpNode* on_success) OVERRIDE;
|
| - virtual RegExpBackReference* AsBackReference() OVERRIDE;
|
| - virtual bool IsBackReference() OVERRIDE;
|
| - virtual int min_match() OVERRIDE { return 0; }
|
| - virtual int max_match() OVERRIDE { return capture_->max_match(); }
|
| - int index() { return capture_->index(); }
|
| - RegExpCapture* capture() { return capture_; }
|
| + RegExpNode* on_success);
|
| + virtual RegExpBackReference* AsBackReference();
|
| + virtual bool IsBackReference() const;
|
| + virtual intptr_t min_match() const { return 0; }
|
| + virtual intptr_t max_match() const { return capture_->max_match(); }
|
| + intptr_t index() const { return capture_->index(); }
|
| + RegExpCapture* capture() const { return capture_; }
|
| private:
|
| RegExpCapture* capture_;
|
| };
|
|
|
|
|
| -class RegExpEmpty FINAL : public RegExpTree {
|
| +class RegExpEmpty : public RegExpTree {
|
| public:
|
| RegExpEmpty() { }
|
| - virtual void* Accept(RegExpVisitor* visitor, void* data) OVERRIDE;
|
| + virtual void* Accept(RegExpVisitor* visitor, void* data);
|
| virtual RegExpNode* ToNode(RegExpCompiler* compiler,
|
| - RegExpNode* on_success) OVERRIDE;
|
| - virtual RegExpEmpty* AsEmpty() OVERRIDE;
|
| - virtual bool IsEmpty() OVERRIDE;
|
| - virtual int min_match() OVERRIDE { return 0; }
|
| - virtual int max_match() OVERRIDE { return 0; }
|
| + RegExpNode* on_success);
|
| + virtual RegExpEmpty* AsEmpty();
|
| + virtual bool IsEmpty() const;
|
| + virtual intptr_t min_match() const { return 0; }
|
| + virtual intptr_t max_match() const { return 0; }
|
| static RegExpEmpty* GetInstance() {
|
| static RegExpEmpty* instance = ::new RegExpEmpty();
|
| return instance;
|
| }
|
| };
|
|
|
| -// SNIP
|
| -
|
| } // namespace dart
|
|
|
| #endif // VM_REGEXP_AST_H_
|
|
|
Chromium Code Reviews
Issue 744853003:
Integrate the Irregexp Regular Expression Engine. (Closed)
Base URL: https://dart.googlecode.com/svn/branches/bleeding_edge/dart