/usr/include/gpt/UnicodeCharScanner.hpp is in libgportugol-dev 1.1-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#define INC_UnicodeCharScanner_hpp__
#include <cstdio>
#include <map>
#include <cctype>
#include <antlr/config.hpp>
#include <antlr/CommonToken.hpp>
#include <antlr/TokenStream.hpp>
#include <antlr/RecognitionException.hpp>
#include <antlr/SemanticException.hpp>
#include <antlr/InputBuffer.hpp>
#include <antlr/BitSet.hpp>
#include <antlr/LexerSharedInputState.hpp>
#include "MismatchedUnicodeCharException.hpp"
/** Superclass of generated lexers
*/
class UnicodeCharScanner : public antlr::TokenStream {
protected:
typedef antlr::RefToken (*factory_type)();
public:
typedef unsigned int char_type;
typedef std::map<std::string,int> string_map;
UnicodeCharScanner( antlr::InputBuffer& cb, bool case_sensitive )
: saveConsumedInput(true)
, caseSensitive(case_sensitive)
, literals()
, inputState(new antlr::LexerInputState(cb))
, commitToPath(false)
, tabsize(8)
, traceDepth(0)
{
setTokenObjectFactory(&antlr::CommonToken::factory);
}
UnicodeCharScanner( antlr::InputBuffer* cb, bool case_sensitive )
: saveConsumedInput(true)
, caseSensitive(case_sensitive)
, literals()
, inputState(new antlr::LexerInputState(cb))
, commitToPath(false)
, tabsize(8)
, traceDepth(0)
{
setTokenObjectFactory(&antlr::CommonToken::factory);
}
UnicodeCharScanner( const antlr::LexerSharedInputState& state, bool case_sensitive )
: saveConsumedInput(true)
, caseSensitive(case_sensitive)
, literals()
, inputState(state)
, commitToPath(false)
, tabsize(8)
, traceDepth(0)
{
setTokenObjectFactory(&antlr::CommonToken::factory);
}
virtual ~UnicodeCharScanner()
{
}
virtual char_type LA(char_type i)
{
char_type c = inputState->getInput().LA(i);
return c;
}
virtual void append(char_type c)
{
if (saveConsumedInput)
{
size_t len = text.length();
if( (len % 256) == 0 )
text.reserve(len+256);
// This is how UTF8 is encoded
// +---------------------------+----------+----------+----------+----------+
// | Unicode scalar | 1st | 2nd | 3th | 4th |
// +---------------------------+----------+----------+----------+----------+
// |00000000 0xxxxxxx | 0xxxxxxx | | | |
// |00000yyy yyxxxxxx | 110yyyyy | 10xxxxxx | | |
// |zzzzyyyy yyxxxxxx | 1110zzzz | 10yyyyyy | 10xxxxxx | |
// |000uuuuu zzzzyyyy yyxxxxxx | 11110uuu | 10uuzzzz | 10yyyyyy | 10xxxxxx |
// +---------------------------+----------+----------+----------+----------+
if (c < 0x80)
{
text += c;
return;
}
else if (c < 0x800)
{
text += ( (c >> 6) | 0xC0 );
text += ( c & 0x3F | 0x80 );
}
else if (c < 0x10000)
{
text += ( (c >> 12) | 0xE0 );
text += ( ((c >> 6) & 0x3F) | 0x80 );
text += ( (c & 0x3F) | 0x80 );
}
else if (c < 0x200000)
{
text += ( (c >> 18) | 0xF0 ); // first 3 bits
text += ( (((c >> 16) & 0x3) << 4) |
((c >> 12) & 0xF) | 0x80 );
text += ( ((c >> 6) & 0x3F) | 0x80 );
text += ( (c & 0x3F) | 0x80 );
}
else
assert(0);
}
}
virtual void append(const std::string& s)
{
assert(0);
if (saveConsumedInput)
text+=s;
}
virtual void commit()
{
inputState->getInput().commit();
}
virtual void consume()
{
if (inputState->guessing == 0)
{
char_type c = LA(1);
append(c);
inputState->column++;
}
inputState->getInput().consume();
}
/** Consume chars until one matches the given char */
virtual void consumeUntil(char_type c)
{
for(;;)
{
char_type la_1 = LA(1);
if( static_cast<char_type>(EOF_CHAR) == la_1 || la_1 == c )
break;
consume();
}
}
/** Consume chars until one matches the given set */
virtual void consumeUntil(const antlr::BitSet& set)
{
for(;;)
{
char_type la_1 = LA(1);
if( static_cast<char_type>(EOF_CHAR) == la_1 || set.member(la_1) )
break;
consume();
}
}
/// Mark the current position and return a id for it
virtual unsigned int mark()
{
return inputState->getInput().mark();
}
/// Rewind the scanner to a previously marked position
virtual void rewind(unsigned int pos)
{
inputState->getInput().rewind(pos);
}
/// See if input contains character 'c' throw MismatchedUnicodeCharException if not
virtual void match(char_type c)
{
char_type la_1 = LA(1);
if ( la_1 != c )
throw MismatchedUnicodeCharException(la_1, c, false, this);
consume();
}
/** See if input contains element from bitset b
* throw MismatchedUnicodeCharException if not
*/
virtual void match(const antlr::BitSet& b)
{
char_type la_1 = LA(1);
if ( !b.member(la_1) )
throw MismatchedUnicodeCharException( la_1, b, false, this );
consume();
}
/** See if input contains string 's' throw MismatchedUnicodeCharException if not
* @note the string cannot match EOF
*/
virtual void match( const char* s )
{
while( *s != '\0' )
{
// the & 0xFF is here to prevent sign extension lateron
char_type la_1 = LA(1), c = (*s++ & 0xFF);
if ( la_1 != c )
throw MismatchedUnicodeCharException(la_1, c, false, this);
consume();
}
}
/** See if input contains string 's' throw MismatchedUnicodeCharException if not
* @note the string cannot match EOF
*/
virtual void match(const std::string& s)
{
size_t len = s.length();
for (size_t i = 0; i < len; i++)
{
// the & 0xFF is here to prevent sign extension lateron
char_type la_1 = LA(1), c = (s[i] & 0xFF);
if ( la_1 != c )
throw MismatchedUnicodeCharException(la_1, c, false, this);
consume();
}
}
/** See if input does not contain character 'c'
* throw MismatchedUnicodeCharException if not
*/
virtual void matchNot(char_type c)
{
char_type la_1 = LA(1);
if ( la_1 == c )
throw MismatchedUnicodeCharException(la_1, c, true, this);
consume();
}
/** See if input contains character in range c1-c2
* throw MismatchedUnicodeCharException if not
*/
virtual void matchRange(char_type c1, char_type c2)
{
char_type la_1 = LA(1);
if ( la_1 < c1 || la_1 > c2 )
throw MismatchedUnicodeCharException(la_1, c1, c2, false, this);
consume();
}
/// Get the line the scanner currently is in (starts at 1)
virtual int getLine() const
{
return inputState->line;
}
/// set the line number
virtual void setLine(int l)
{
inputState->line = l;
}
/// Get the column the scanner currently is in (starts at 1)
virtual int getColumn() const
{
return inputState->column;
}
/// set the column number
virtual void setColumn(int c)
{
inputState->column = c;
}
/// get the filename for the file currently used
virtual const std::string& getFilename() const
{
return inputState->filename;
}
/// Set the filename the scanner is using (used in error messages)
virtual void setFilename(const std::string& f)
{
inputState->filename = f;
}
virtual bool getCommitToPath() const
{
return commitToPath;
}
virtual void setCommitToPath(bool commit)
{
commitToPath = commit;
}
/** return a copy of the current text buffer */
virtual const std::string& getText() const
{
return text;
}
virtual void setText(const std::string& s)
{
text = s;
}
virtual void resetText()
{
text = "";
inputState->tokenStartColumn = inputState->column;
inputState->tokenStartLine = inputState->line;
}
virtual antlr::RefToken getTokenObject() const
{
return _returnToken;
}
///{ These need different handling in unicode case
virtual bool getCaseSensitiveLiterals() const=0;
virtual bool getCaseSensitive() const
{
return caseSensitive;
}
virtual void setCaseSensitive(bool t)
{
caseSensitive = t;
}
/** Override this method to get more specific case handling
* @note some platforms probably require setting the right locale for
* correct functioning.
*/
virtual char_type toLower(char_type c) const
{
return std::tolower(c);
}
/** Used to keep track of line breaks, needs to be called from
* within generated lexers when a \n \r is encountered.
*/
virtual void newline()
{
++inputState->line;
inputState->column = 1;
}
/** Advance the current column number by an appropriate amount according
* to the tabsize. This method needs to be explicitly called from the
* lexer rules encountering tabs.
*/
virtual void tab()
{
int c = getColumn();
int nc = ( ((c-1)/tabsize) + 1) * tabsize + 1; // calculate tab stop
setColumn( nc );
}
/// set the tabsize. Returns the old tabsize
int setTabsize( int size )
{
int oldsize = tabsize;
tabsize = size;
return oldsize;
}
/// Return the tabsize used by the scanner
int getTabSize() const
{
return tabsize;
}
///}
/** Report exception errors caught in nextToken() */
virtual void reportError(const antlr::RecognitionException& ex)
{
std::cerr << ex.toString().c_str() << std::endl;
}
/** Parser error-reporting function can be overridden in subclass */
virtual void reportError(const std::string& s)
{
if (getFilename() == "")
std::cerr << "error: " << s.c_str() << std::endl;
else
std::cerr << getFilename().c_str() << ": error: " << s.c_str() << std::endl;
}
/** Parser warning-reporting function can be overridden in subclass */
virtual void reportWarning(const std::string& s)
{
if (getFilename() == "")
std::cerr << "warning: " << s.c_str() << std::endl;
else
std::cerr << getFilename().c_str() << ": warning: " << s.c_str() << std::endl;
}
virtual antlr::InputBuffer& getInputBuffer()
{
return inputState->getInput();
}
virtual antlr::LexerSharedInputState getInputState()
{
return inputState;
}
/** set the input state for the lexer.
* @note state is a reference counted object, hence no reference */
virtual void setInputState(antlr::LexerSharedInputState state)
{
inputState = state;
}
/// Set the factory for created tokens
virtual void setTokenObjectFactory(factory_type factory)
{
tokenFactory = factory;
}
/** Test the token text against the literals table
* Override this method to perform a different literals test
*/
virtual int testLiteralsTable(int ttype) const
{
string_map::const_iterator i = literals.find(text);
if (i != literals.end())
ttype = (*i).second;
return ttype;
}
/** Test the text passed in against the literals table
* Override this method to perform a different literals test
* This is used primarily when you want to test a portion of
* a token
*/
virtual int testLiteralsTable(const std::string& text, int ttype) const
{
string_map::const_iterator i = literals.find(text);
if (i != literals.end())
ttype = (*i).second;
return ttype;
}
/** This method is called by YourLexer::nextToken() when the lexer has
* hit EOF condition. EOF is NOT a character.
* This method is not called if EOF is reached during
* syntactic predicate evaluation or during evaluation
* of normal lexical rules, which presumably would be
* an IOException. This traps the "normal" EOF condition.
*
* uponEOF() is called after the complete evaluation of
* the previous token and only if your parser asks
* for another token beyond that last non-EOF token.
*
* You might want to throw token or char stream exceptions
* like: "Heh, premature eof" or a retry stream exception
* ("I found the end of this file, go back to referencing file").
*/
virtual void uponEOF()
{
}
/// Methods used to change tracing behavior
void traceIndent()
{
for( int i = 0; i < traceDepth; i++ )
std::cout << " ";
}
void traceIn(const char* rname)
{
traceDepth++;
traceIndent();
std::cout << "> lexer " << rname
<< "; c==" << LA(1) << std::endl;
}
void traceOut(const char* rname)
{
traceIndent();
std::cout << "< lexer " << rname
<< "; c==" << LA(1) << std::endl;
traceDepth--;
}
#ifndef NO_STATIC_CONSTS
static const int EOF_CHAR = EOF;
#else
enum {
EOF_CHAR = EOF
};
#endif
protected:
std::string text; ///< Text of current token
/// flag indicating wether consume saves characters
bool saveConsumedInput;
factory_type tokenFactory; ///< Factory for tokens
bool caseSensitive; ///< Is this lexer case sensitive
string_map literals; // set by subclass
antlr::RefToken _returnToken; ///< used to return tokens w/o using return val
/// Input state, gives access to input stream, shared among different lexers
antlr::LexerSharedInputState inputState;
/** Used during filter mode to indicate that path is desired.
* A subsequent scan error will report an error as usual
* if acceptPath=true;
*/
bool commitToPath;
unsigned int tabsize; ///< tab size the scanner uses.
/// Create a new RefToken of type t
virtual antlr::RefToken makeToken(int t)
{
antlr::RefToken tok = tokenFactory();
// actually at this point you want to convert the stored lexeme text
// into the format you want to have it in in the backend...
tok->setType(t);
tok->setColumn(inputState->tokenStartColumn);
tok->setLine(inputState->tokenStartLine);
return tok;
}
/** Tracer class, used when -traceLexer is passed to antlr
*/
class Tracer {
private:
UnicodeCharScanner* parser;
const char* text;
Tracer(const Tracer& other); // undefined
Tracer& operator=(const Tracer& other); // undefined
public:
Tracer( UnicodeCharScanner* p, const char* t )
: parser(p), text(t)
{
parser->traceIn(text);
}
~Tracer()
{
parser->traceOut(text);
}
};
int traceDepth;
private:
UnicodeCharScanner( const UnicodeCharScanner& other ); // undefined
UnicodeCharScanner& operator=( const UnicodeCharScanner& other ); // undefined
};
#endif //INC_UnicodeCharScanner_hpp__
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