gecko/parser/htmlparser/public/nsToken.h
Nicholas Nethercote 0e3b7b28e7 Bug 847248 (part 9) - Remove nsFixedSizeAllocator from parser/htmlparser/. r=hsivonen.
--HG--
extra : rebase_source : 9a9bbdeb87a2d7a3739777ad152937c09caa82d1
2013-03-05 16:51:40 -08:00

264 lines
6.4 KiB
C++

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/**
* MODULE NOTES:
* @update gess 4/1/98
*
* This class is defines the basic notion of a token
* within our system. All other tokens are derived from
* this one. It offers a few basic interfaces, but the
* most important is consume(). The consume() method gets
* called during the tokenization process when an instance
* of that particular token type gets detected in the
* input stream.
*
* CToken objects that are allocated from the heap are allocated
* using the nsTokenAllocator object. nsTokenAllocator used to use
* an arena-style allocator, but that is no longer necessary or helpful;
* it now uses a trivial drop-in replacement for the arena-style
* allocator called nsDummyAllocator, which just wraps malloc/free.
*/
#ifndef CTOKEN__
#define CTOKEN__
#include "prtypes.h"
#include "nsString.h"
#include "nsError.h"
class nsScanner;
class nsTokenAllocator;
/**
* A trivial allocator. See the comment at the top of this file.
*/
class nsDummyAllocator {
public:
void* Alloc(size_t aSize) { return malloc(aSize); }
void Free(void* aPtr) { free(aPtr); }
};
enum eContainerInfo {
eWellFormed,
eMalformed,
eFormUnknown
};
/**
* Token objects represent sequences of characters as they
* are consumed from the input stream (URL). While they're
* pretty general in nature, we use subclasses (found in
* nsHTMLTokens.h) to define <start>, </end>, <text>,
* <comment>, <&entity>, <newline>, and <whitespace> tokens.
*
* @update gess 3/25/98
*/
class CToken {
public:
enum eTokenOrigin {eSource,eResidualStyle};
protected:
// nsTokenAllocator should be the only class that tries to
// allocate tokens from the heap.
friend class nsTokenAllocator;
/**
*
* @update harishd 08/01/00
* @param aSize -
* @param aArena - Allocate memory from this pool.
*/
static void * operator new (size_t aSize, nsDummyAllocator& anArena) CPP_THROW_NEW
{
return anArena.Alloc(aSize);
}
/**
* Hide operator delete; clients should use Destroy() instead.
*/
static void operator delete (void*,size_t) {}
protected:
/**
* destructor
* @update gess5/11/98
*/
virtual ~CToken();
private:
/**
* Destroy a token.
*/
static void Destroy(CToken* aToken, nsDummyAllocator& aArenaPool)
{
aToken->~CToken();
aArenaPool.Free(aToken);
}
public:
/**
* Make a note on number of times you have been referenced
* @update harishd 08/02/00
*/
void AddRef() {
++mUseCount;
NS_LOG_ADDREF(this, mUseCount, "CToken", sizeof(*this));
}
/**
* Free yourself if no one is holding you.
* @update harishd 08/02/00
*/
void Release(nsDummyAllocator& aArenaPool) {
--mUseCount;
NS_LOG_RELEASE(this, mUseCount, "CToken");
if (mUseCount==0)
Destroy(this, aArenaPool);
}
/**
* Default constructor
* @update gess7/21/98
*/
CToken(int32_t aTag=0);
/**
* Retrieve string value of the token
* @update gess5/11/98
* @return reference to string containing string value
*/
virtual const nsSubstring& GetStringValue(void) = 0;
/**
* Get string of full contents, suitable for debug dump.
* It should look exactly like the input source.
* @update gess5/11/98
* @return reference to string containing string value
*/
virtual void GetSource(nsString& anOutputString);
/** @update harishd 03/23/00
* @return reference to string containing string value
*/
virtual void AppendSourceTo(nsAString& anOutputString);
/**
* Sets the ordinal value of this token (not currently used)
* @update gess5/11/98
* @param value is the new ord value for this token
*/
void SetTypeID(int32_t aValue) {
mTypeID = aValue;
}
/**
* Getter which retrieves the current ordinal value for this token
* @update gess5/11/98
* @return current ordinal value
*/
virtual int32_t GetTypeID(void);
/**
* Getter which retrieves the current attribute count for this token
* @update gess5/11/98
* @return current attribute count
*/
virtual int16_t GetAttributeCount(void);
/**
* Causes token to consume data from given scanner.
* Note that behavior varies wildly between CToken subclasses.
* @update gess5/11/98
* @param aChar -- most recent char consumed
* @param aScanner -- input source where token should get data
* @return error code (0 means ok)
*/
virtual nsresult Consume(PRUnichar aChar,nsScanner& aScanner,int32_t aMode);
/**
* Getter which retrieves type of token
* @update gess5/11/98
* @return int containing token type
*/
virtual int32_t GetTokenType(void);
/**
* For tokens who care, this can tell us whether the token is
* well formed or not.
*
* @update gess 8/30/00
* @return false; subclasses MUST override if they care.
*/
virtual bool IsWellFormed(void) const {return false;}
virtual bool IsEmpty(void) { return false; }
/**
* If aValue is TRUE then the token represents a short-hand tag
*/
virtual void SetEmpty(bool aValue) { return ; }
int32_t GetNewlineCount()
{
return mNewlineCount;
}
void SetNewlineCount(int32_t aCount)
{
mNewlineCount = aCount;
}
int32_t GetLineNumber()
{
return mLineNumber;
}
void SetLineNumber(int32_t aLineNumber)
{
mLineNumber = mLineNumber == 0 ? aLineNumber : mLineNumber;
}
void SetInError(bool aInError)
{
mInError = aInError;
}
bool IsInError()
{
return mInError;
}
void SetAttributeCount(int16_t aValue) { mAttrCount = aValue; }
/**
* perform self test.
* @update gess5/11/98
*/
virtual void SelfTest(void);
static int GetTokenCount();
protected:
int32_t mTypeID;
int32_t mUseCount;
int32_t mNewlineCount;
uint32_t mLineNumber : 31;
uint32_t mInError : 1;
int16_t mAttrCount;
};
#endif