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cobalt / cobalt / c73ce7d5dfce7ae20bcc30efc5f220e0fbac12b1 / . / src / third_party / mozjs-45 / js / src / irregexp / RegExpAST.h
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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sts=4 et sw=4 tw=99: */
// Copyright 2012 the V8 project authors. All rights reserved.
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#ifndef V8_REGEXP_AST_H_
#define V8_REGEXP_AST_H_
// Prevent msvc build failures as indicated in bug 1205328
#ifdef min
# undef min
#endif
#ifdef max
# undef max
#endif
#include "irregexp/RegExpEngine.h"
namespace js {
namespace irregexp {
class RegExpCompiler;
class RegExpNode;
class RegExpVisitor
{
public:
virtual ~RegExpVisitor() { }
#define MAKE_CASE(Name) \
virtual void* Visit##Name(RegExp##Name*, void* data) = 0;
FOR_EACH_REG_EXP_TREE_TYPE(MAKE_CASE)
#undef MAKE_CASE
};
class RegExpTree
{
public:
static const int kInfinity = INT32_MAX;
virtual ~RegExpTree() {}
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;
// Returns the interval of registers used for captures within this
// expression.
virtual Interval CaptureRegisters() { return Interval::Empty(); }
virtual void AppendToText(RegExpText* text) {
MOZ_CRASH("Bad call");
}
#define MAKE_ASTYPE(Name) \
virtual RegExp##Name* As##Name(); \
virtual bool Is##Name();
FOR_EACH_REG_EXP_TREE_TYPE(MAKE_ASTYPE)
#undef MAKE_ASTYPE
};
typedef Vector<RegExpTree*, 1, LifoAllocPolicy<Infallible> > RegExpTreeVector;
class RegExpDisjunction : public RegExpTree
{
public:
explicit RegExpDisjunction(RegExpTreeVector* alternatives);
virtual void* Accept(RegExpVisitor* visitor, void* data);
virtual RegExpNode* ToNode(RegExpCompiler* compiler,
RegExpNode* on_success);
virtual RegExpDisjunction* AsDisjunction();
virtual Interval CaptureRegisters();
virtual bool IsDisjunction();
virtual bool IsAnchoredAtStart();
virtual bool IsAnchoredAtEnd();
virtual int min_match() { return min_match_; }
virtual int max_match() { return max_match_; }
const RegExpTreeVector& alternatives() { return *alternatives_; }
private:
RegExpTreeVector* alternatives_;
int min_match_;
int max_match_;
};
class RegExpAlternative : public RegExpTree
{
public:
explicit RegExpAlternative(RegExpTreeVector* nodes);
virtual void* Accept(RegExpVisitor* visitor, void* data);
virtual RegExpNode* ToNode(RegExpCompiler* compiler,
RegExpNode* on_success);
virtual RegExpAlternative* AsAlternative();
virtual Interval CaptureRegisters();
virtual bool IsAlternative();
virtual bool IsAnchoredAtStart();
virtual bool IsAnchoredAtEnd();
virtual int min_match() { return min_match_; }
virtual int max_match() { return max_match_; }
const RegExpTreeVector& nodes() { return *nodes_; }
private:
RegExpTreeVector* nodes_;
int min_match_;
int max_match_;
};
class RegExpAssertion : public RegExpTree {
public:
enum AssertionType {
START_OF_LINE,
START_OF_INPUT,
END_OF_LINE,
END_OF_INPUT,
BOUNDARY,
NON_BOUNDARY
};
explicit RegExpAssertion(AssertionType type) : assertion_type_(type) { }
virtual void* Accept(RegExpVisitor* visitor, void* data);
virtual RegExpNode* ToNode(RegExpCompiler* compiler,
RegExpNode* on_success);
virtual RegExpAssertion* AsAssertion();
virtual bool IsAssertion();
virtual bool IsAnchoredAtStart();
virtual bool IsAnchoredAtEnd();
virtual int min_match() { return 0; }
virtual int max_match() { return 0; }
AssertionType assertion_type() { return assertion_type_; }
private:
AssertionType assertion_type_;
};
class CharacterSet
{
public:
explicit CharacterSet(char16_t standard_set_type)
: ranges_(nullptr),
standard_set_type_(standard_set_type)
{}
explicit CharacterSet(CharacterRangeVector* ranges)
: ranges_(ranges),
standard_set_type_(0)
{}
CharacterRangeVector& ranges(LifoAlloc* alloc);
char16_t standard_set_type() { return standard_set_type_; }
void set_standard_set_type(char16_t special_set_type) {
standard_set_type_ = special_set_type;
}
bool is_standard() { return standard_set_type_ != 0; }
void Canonicalize();
private:
CharacterRangeVector* ranges_;
// If non-zero, the value represents a standard set (e.g., all whitespace
// characters) without having to expand the ranges.
char16_t standard_set_type_;
};
class RegExpCharacterClass : public RegExpTree
{
public:
RegExpCharacterClass(CharacterRangeVector* ranges, bool is_negated)
: set_(ranges),
is_negated_(is_negated)
{}
explicit RegExpCharacterClass(char16_t type)
: set_(type),
is_negated_(false)
{}
virtual void* Accept(RegExpVisitor* visitor, void* data);
virtual RegExpNode* ToNode(RegExpCompiler* compiler,
RegExpNode* on_success);
virtual RegExpCharacterClass* AsCharacterClass();
virtual bool IsCharacterClass();
virtual bool IsTextElement() { return true; }
virtual int min_match() { return 1; }
virtual int max_match() { return 1; }
virtual void AppendToText(RegExpText* text);
CharacterSet character_set() { 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(LifoAlloc* alloc);
// Returns a value representing the standard character set if is_standard()
// returns true.
// Currently used values are:
// s : unicode whitespace
// S : unicode non-whitespace
// w : ASCII word character (digit, letter, underscore)
// W : non-ASCII word character
// d : ASCII digit
// D : non-ASCII digit
// . : non-unicode non-newline
// * : All characters
char16_t standard_type() { return set_.standard_set_type(); }
CharacterRangeVector& ranges(LifoAlloc* alloc) { return set_.ranges(alloc); }
bool is_negated() { return is_negated_; }
private:
CharacterSet set_;
bool is_negated_;
};
typedef Vector<char16_t, 10, LifoAllocPolicy<Infallible> > CharacterVector;
class RegExpAtom : public RegExpTree
{
public:
explicit RegExpAtom(CharacterVector* data)
: data_(data)
{}
virtual void* Accept(RegExpVisitor* visitor, void* data);
virtual RegExpNode* ToNode(RegExpCompiler* compiler,
RegExpNode* on_success);
virtual RegExpAtom* AsAtom();
virtual bool IsAtom();
virtual bool IsTextElement() { return true; }
virtual int min_match() { return data_->length(); }
virtual int max_match() { return data_->length(); }
virtual void AppendToText(RegExpText* text);
const CharacterVector& data() { return *data_; }
int length() { return data_->length(); }
private:
CharacterVector* data_;
};
class RegExpText : public RegExpTree
{
public:
explicit RegExpText(LifoAlloc* alloc)
: elements_(*alloc), length_(0)
{}
virtual void* Accept(RegExpVisitor* visitor, void* data);
virtual RegExpNode* ToNode(RegExpCompiler* compiler,
RegExpNode* on_success);
virtual RegExpText* AsText();
virtual bool IsText();
virtual bool IsTextElement() { return true; }
virtual int min_match() { return length_; }
virtual int max_match() { return length_; }
virtual void AppendToText(RegExpText* text);
void AddElement(TextElement elm) {
elements_.append(elm);
length_ += elm.length();
}
const TextElementVector& elements() { return elements_; }
private:
TextElementVector elements_;
int length_;
};
class RegExpQuantifier : public RegExpTree
{
public:
enum QuantifierType { GREEDY, NON_GREEDY, POSSESSIVE };
RegExpQuantifier(int min, int max, QuantifierType type, RegExpTree* body)
: body_(body),
min_(min),
max_(max),
min_match_(min * body->min_match()),
quantifier_type_(type)
{
if (max > 0 && body->max_match() > kInfinity / max) {
max_match_ = kInfinity;
} else {
max_match_ = max * body->max_match();
}
}
virtual void* Accept(RegExpVisitor* visitor, void* data);
virtual RegExpNode* ToNode(RegExpCompiler* compiler,
RegExpNode* on_success);
static RegExpNode* ToNode(int min,
int max,
bool is_greedy,
RegExpTree* body,
RegExpCompiler* compiler,
RegExpNode* on_success,
bool not_at_start = false);
virtual RegExpQuantifier* AsQuantifier();
virtual Interval CaptureRegisters();
virtual bool IsQuantifier();
virtual int min_match() { return min_match_; }
virtual int max_match() { 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_; }
private:
RegExpTree* body_;
int min_;
int max_;
int min_match_;
int max_match_;
QuantifierType quantifier_type_;
};
class RegExpCapture : public RegExpTree
{
public:
explicit RegExpCapture(RegExpTree* body, int index)
: body_(body), index_(index)
{}
virtual void* Accept(RegExpVisitor* visitor, void* data);
virtual RegExpNode* ToNode(RegExpCompiler* compiler,
RegExpNode* on_success);
static RegExpNode* ToNode(RegExpTree* body,
int index,
RegExpCompiler* compiler,
RegExpNode* on_success);
virtual RegExpCapture* AsCapture();
virtual bool IsAnchoredAtStart();
virtual bool IsAnchoredAtEnd();
virtual Interval CaptureRegisters();
virtual bool IsCapture();
virtual int min_match() { return body_->min_match(); }
virtual int max_match() { 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; }
private:
RegExpTree* body_;
int index_;
};
class RegExpLookahead : public RegExpTree
{
public:
RegExpLookahead(RegExpTree* body,
bool is_positive,
int capture_count,
int capture_from)
: body_(body),
is_positive_(is_positive),
capture_count_(capture_count),
capture_from_(capture_from)
{}
virtual void* Accept(RegExpVisitor* visitor, void* data);
virtual RegExpNode* ToNode(RegExpCompiler* compiler,
RegExpNode* on_success);
virtual RegExpLookahead* AsLookahead();
virtual Interval CaptureRegisters();
virtual bool IsLookahead();
virtual bool IsAnchoredAtStart();
virtual int min_match() { return 0; }
virtual int max_match() { return 0; }
RegExpTree* body() { return body_; }
bool is_positive() { return is_positive_; }
int capture_count() { return capture_count_; }
int capture_from() { return capture_from_; }
private:
RegExpTree* body_;
bool is_positive_;
int capture_count_;
int capture_from_;
};
typedef Vector<RegExpCapture*, 1, LifoAllocPolicy<Infallible> > RegExpCaptureVector;
class RegExpBackReference : public RegExpTree
{
public:
explicit RegExpBackReference(RegExpCapture* capture)
: capture_(capture)
{}
virtual void* Accept(RegExpVisitor* visitor, void* data);
virtual RegExpNode* ToNode(RegExpCompiler* compiler,
RegExpNode* on_success);
virtual RegExpBackReference* AsBackReference();
virtual bool IsBackReference();
virtual int min_match() { return 0; }
virtual int max_match() { return capture_->max_match(); }
int index() { return capture_->index(); }
RegExpCapture* capture() { return capture_; }
private:
RegExpCapture* capture_;
};
class RegExpEmpty : public RegExpTree
{
public:
RegExpEmpty()
{}
virtual void* Accept(RegExpVisitor* visitor, void* data);
virtual RegExpNode* ToNode(RegExpCompiler* compiler,
RegExpNode* on_success);
virtual RegExpEmpty* AsEmpty();
virtual bool IsEmpty();
virtual int min_match() { return 0; }
virtual int max_match() { return 0; }
static RegExpEmpty* GetInstance() {
static RegExpEmpty instance;
return &instance;
}
};
} } // namespace js::irregexp
#endif // V8_REGEXP_AST_H_