#ifndef LiteralParser_h
#define LiteralParser_h
#include "Identifier.h"
#include "JSGlobalObjectFunctions.h"
#include "JSValue.h"
#include "UString.h"
namespace JSC {
class LiteralParser {
public:
typedef enum { StrictJSON, NonStrictJSON, JSONP } ParserMode;
LiteralParser(ExecState* exec, const UChar* characters, unsigned length, ParserMode mode)
: m_exec(exec)
, m_lexer(characters, length, mode)
, m_mode(mode)
{
}
UString getErrorMessage()
{
if (!m_lexer.getErrorMessage().isEmpty())
return String::format("JSON Parse error: %s", m_lexer.getErrorMessage().ascii().data()).impl();
if (!m_parseErrorMessage.isEmpty())
return String::format("JSON Parse error: %s", m_parseErrorMessage.ascii().data()).impl();
return "JSON Parse error: Unable to parse JSON string";
}
JSValue tryLiteralParse()
{
m_lexer.next();
JSValue result = parse(m_mode == StrictJSON ? StartParseExpression : StartParseStatement);
if (m_lexer.currentToken().type == TokSemi)
m_lexer.next();
if (m_lexer.currentToken().type != TokEnd)
return JSValue();
return result;
}
enum JSONPPathEntryType {
JSONPPathEntryTypeDeclare, JSONPPathEntryTypeDot, JSONPPathEntryTypeLookup, JSONPPathEntryTypeCall };
struct JSONPPathEntry {
JSONPPathEntryType m_type;
Identifier m_pathEntryName;
int m_pathIndex;
};
struct JSONPData {
Vector<JSONPPathEntry> m_path;
Strong<Unknown> m_value;
};
bool tryJSONPParse(Vector<JSONPData>&, bool needsFullSourceInfo);
private:
enum ParserState { StartParseObject, StartParseArray, StartParseExpression,
StartParseStatement, StartParseStatementEndStatement,
DoParseObjectStartExpression, DoParseObjectEndExpression,
DoParseArrayStartExpression, DoParseArrayEndExpression };
enum TokenType { TokLBracket, TokRBracket, TokLBrace, TokRBrace,
TokString, TokIdentifier, TokNumber, TokColon,
TokLParen, TokRParen, TokComma, TokTrue, TokFalse,
TokNull, TokEnd, TokDot, TokAssign, TokSemi, TokError };
class Lexer {
public:
struct LiteralParserToken {
TokenType type;
const UChar* start;
const UChar* end;
UString stringBuffer;
union {
double numberToken;
struct {
const UChar* stringToken;
int stringLength;
};
};
};
Lexer(const UChar* characters, unsigned length, ParserMode mode)
: m_mode(mode)
, m_ptr(characters)
, m_end(characters + length)
{
}
TokenType next();
const LiteralParserToken& currentToken()
{
return m_currentToken;
}
UString getErrorMessage() { return m_lexErrorMessage; }
private:
UString m_lexErrorMessage;
template <ParserMode mode> TokenType lex(LiteralParserToken&);
template <ParserMode mode, UChar terminator> ALWAYS_INLINE TokenType lexString(LiteralParserToken&);
ALWAYS_INLINE TokenType lexNumber(LiteralParserToken&);
LiteralParserToken m_currentToken;
UString m_string;
ParserMode m_mode;
const UChar* m_ptr;
const UChar* m_end;
};
class StackGuard;
JSValue parse(ParserState);
ExecState* m_exec;
LiteralParser::Lexer m_lexer;
ParserMode m_mode;
UString m_parseErrorMessage;
static unsigned const MaximumCachableCharacter = 128;
FixedArray<Identifier, MaximumCachableCharacter> m_shortIdentifiers;
FixedArray<Identifier, MaximumCachableCharacter> m_recentIdentifiers;
ALWAYS_INLINE const Identifier makeIdentifier(const UChar* characters, size_t length);
};
}
#endif