path: root/old/cococpp/Scanner.frame

/*----------------------------------------------------------------------
Compiler Generator Coco/R,
Copyright (c) 1990, 2004 Hanspeter Moessenboeck, University of Linz
extended by M. Loeberbauer & A. Woess, Univ. of Linz
ported to C++ by Csaba Balazs, University of Szeged
with improvements by Pat Terry, Rhodes University

This program is free software; you can redistribute it and/or modify it 
under the terms of the GNU General Public License as published by the 
Free Software Foundation; either version 2, or (at your option) any 
later version.

This program is distributed in the hope that it will be useful, but 
WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY 
or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License 
for more details.

You should have received a copy of the GNU General Public License along 
with this program; if not, write to the Free Software Foundation, Inc., 
59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.

As an exception, it is allowed to write an extension of Coco/R that is
used as a plugin in non-free software.

If not otherwise stated, any source code generated by Coco/R (other than 
Coco/R itself) does not fall under the GNU General Public License.
-----------------------------------------------------------------------*/

/*----------------------------------------------------------------------
Scanner.h Specification
-----------------------------------------------------------------------*/

-->begin

#if !defined(-->prefixCOCO_SCANNER_H__)
#define -->prefixCOCO_SCANNER_H__

#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <wchar.h>

// io.h and fcntl are used to ensure binary read from streams on windows
#if _MSC_VER >= 1300
#include <io.h>
#include <fcntl.h>
#endif

#if _MSC_VER >= 1400
#define coco_swprintf swprintf_s
#elif _MSC_VER >= 1300
#define coco_swprintf _snwprintf
#elif defined __MINGW32__
#define coco_swprintf _snwprintf
#else
// assume every other compiler knows swprintf
#define coco_swprintf swprintf
#endif

#define COCO_WCHAR_MAX 65535
#define COCO_MIN_BUFFER_LENGTH 1024
#define COCO_MAX_BUFFER_LENGTH (64*COCO_MIN_BUFFER_LENGTH)
#define COCO_HEAP_BLOCK_SIZE (64*1024)
#define COCO_CPP_NAMESPACE_SEPARATOR L':'

-->namespace_open

// string handling, wide character
wchar_t* coco_string_create(const wchar_t *value);
wchar_t* coco_string_create(const wchar_t *value, int startIndex);
wchar_t* coco_string_create(const wchar_t *value, int startIndex, int length);
wchar_t* coco_string_create_upper(const wchar_t* data);
wchar_t* coco_string_create_lower(const wchar_t* data);
wchar_t* coco_string_create_lower(const wchar_t* data, int startIndex, int dataLen);
wchar_t* coco_string_create_append(const wchar_t* data1, const wchar_t* data2);
wchar_t* coco_string_create_append(const wchar_t* data, const wchar_t value);
void  coco_string_delete(wchar_t* &data);
int   coco_string_length(const wchar_t* data);
bool  coco_string_endswith(const wchar_t* data, const wchar_t *value);
int   coco_string_indexof(const wchar_t* data, const wchar_t value);
int   coco_string_lastindexof(const wchar_t* data, const wchar_t value);
void  coco_string_merge(wchar_t* &data, const wchar_t* value);
bool  coco_string_equal(const wchar_t* data1, const wchar_t* data2);
int   coco_string_compareto(const wchar_t* data1, const wchar_t* data2);
int   coco_string_hash(const wchar_t* data);

// string handling, ascii character
wchar_t* coco_string_create(const char *value);
char* coco_string_create_char(const wchar_t *value);
void  coco_string_delete(char* &data);


class Token  
{
public:
	int kind;     // token kind
	int pos;      // token position in bytes in the source text (starting at 0)
	int charPos;  // token position in characters in the source text (starting at 0)
	int col;      // token column (starting at 1)
	int line;     // token line (starting at 1)
	wchar_t* val; // token value
	Token *next;  // ML 2005-03-11 Peek tokens are kept in linked list

	Token();
	~Token();
};

class Buffer {
// This Buffer supports the following cases:
// 1) seekable stream (file)
//    a) whole stream in buffer
//    b) part of stream in buffer
// 2) non seekable stream (network, console)
private:
	unsigned char *buf; // input buffer
	int bufCapacity;    // capacity of buf
	int bufStart;       // position of first byte in buffer relative to input stream
	int bufLen;         // length of buffer
	int fileLen;        // length of input stream (may change if the stream is no file)
	int bufPos;         // current position in buffer
	FILE* stream;       // input stream (seekable)
	bool isUserStream;  // was the stream opened by the user?
	
	int ReadNextStreamChunk();
	bool CanSeek();     // true if stream can be seeked otherwise false
	
public:
	static const int EoF = COCO_WCHAR_MAX + 1;

	Buffer(FILE* s, bool isUserStream);
	Buffer(const unsigned char* buf, int len);
	Buffer(Buffer *b);
	virtual ~Buffer();
	
	virtual void Close();
	virtual int Read();
	virtual int Peek();
	virtual wchar_t* GetString(int beg, int end);
	virtual int GetPos();
	virtual void SetPos(int value);
};

class UTF8Buffer : public Buffer {
public:
	UTF8Buffer(Buffer *b) : Buffer(b) {};
	virtual int Read();
};

//-----------------------------------------------------------------------------------
// StartStates  -- maps characters to start states of tokens
//-----------------------------------------------------------------------------------
class StartStates {
private:
	class Elem {
	public:
		int key, val;
		Elem *next;
		Elem(int key, int val) { this->key = key; this->val = val; next = NULL; }
	};

	Elem **tab;

public:
	StartStates() { tab = new Elem*[128]; memset(tab, 0, 128 * sizeof(Elem*)); }
	virtual ~StartStates() {
		for (int i = 0; i < 128; ++i) {
			Elem *e = tab[i];
			while (e != NULL) {
				Elem *next = e->next;
				delete e;
				e = next;
			}
		}
		delete [] tab;
	}

	void set(int key, int val) {
		Elem *e = new Elem(key, val);
		int k = ((unsigned int) key) % 128;
		e->next = tab[k]; tab[k] = e;
	}

	int state(int key) {
		Elem *e = tab[((unsigned int) key) % 128];
		while (e != NULL && e->key != key) e = e->next;
		return e == NULL ? 0 : e->val;
	}
};

//-------------------------------------------------------------------------------------------
// KeywordMap  -- maps strings to integers (identifiers to keyword kinds)
//-------------------------------------------------------------------------------------------
class KeywordMap {
private:
	class Elem {
	public:
		wchar_t *key;
		int val;
		Elem *next;
		Elem(const wchar_t *key, int val) { this->key = coco_string_create(key); this->val = val; next = NULL; }
		virtual ~Elem() { coco_string_delete(key); }
	};

	Elem **tab;

public:
	KeywordMap() { tab = new Elem*[128]; memset(tab, 0, 128 * sizeof(Elem*)); }
	virtual ~KeywordMap() {
		for (int i = 0; i < 128; ++i) {
			Elem *e = tab[i];
			while (e != NULL) {
				Elem *next = e->next;
				delete e;
				e = next;
			}
		}
		delete [] tab;
	}

	void set(const wchar_t *key, int val) {
		Elem *e = new Elem(key, val);
		int k = coco_string_hash(key) % 128;
		e->next = tab[k]; tab[k] = e;
	}

	int get(const wchar_t *key, int defaultVal) {
		Elem *e = tab[coco_string_hash(key) % 128];
		while (e != NULL && !coco_string_equal(e->key, key)) e = e->next;
		return e == NULL ? defaultVal : e->val;
	}
};

class Scanner {
private:
	void *firstHeap;
	void *heap;
	void *heapTop;
	void **heapEnd;

	unsigned char EOL;
	int eofSym;
	int noSym;
	int maxT;
	int charSetSize;
	StartStates start;
	KeywordMap keywords;

	Token *t;         // current token
	wchar_t *tval;    // text of current token
	int tvalLength;   // length of text of current token
	int tlen;         // length of current token

	Token *tokens;    // list of tokens already peeked (first token is a dummy)
	Token *pt;        // current peek token

	int ch;           // current input character
-->casing0
	int pos;          // byte position of current character
	int charPos;      // position by unicode characters starting with 0
	int line;         // line number of current character
	int col;          // column number of current character
	int oldEols;      // EOLs that appeared in a comment;

	void CreateHeapBlock();
	Token* CreateToken();
	void AppendVal(Token *t);
	void SetScannerBehindT();

	void Init();
	void NextCh();
	void AddCh();
-->commentsheader
	Token* NextToken();

public:
	Buffer *buffer;   // scanner buffer
	
	Scanner(const unsigned char* buf, int len);
	Scanner(const wchar_t* fileName);
	Scanner(FILE* s);
	~Scanner();
	Token* Scan();
	Token* Peek();
	void ResetPeek();

}; // end Scanner

-->namespace_close

#endif

-->implementation

/*----------------------------------------------------------------------
Scanner.cpp Specification
-----------------------------------------------------------------------*/

-->begin

#include <memory.h>
#include <string.h>
#include "Scanner.h"

-->namespace_open


// string handling, wide character


wchar_t* coco_string_create(const wchar_t* value) {
	return coco_string_create(value, 0);
}

wchar_t* coco_string_create(const wchar_t *value, int startIndex) {
	int valueLen = 0;
	int len = 0;

	if (value) {
		valueLen = wcslen(value);
		len = valueLen - startIndex;
	}

	return coco_string_create(value, startIndex, len);
}

wchar_t* coco_string_create(const wchar_t *value, int startIndex, int length) {
	int len = 0;
	wchar_t* data;

	if (value) { len = length; }
	data = new wchar_t[len + 1];
	wcsncpy(data, &(value[startIndex]), len);
	data[len] = 0;

	return data;
}

wchar_t* coco_string_create_upper(const wchar_t* data) {
	if (!data) { return NULL; }

	int dataLen = 0;
	if (data) { dataLen = wcslen(data); }

	wchar_t *newData = new wchar_t[dataLen + 1];

	for (int i = 0; i <= dataLen; i++) {
		if ((L'a' <= data[i]) && (data[i] <= L'z')) {
			newData[i] = data[i] + (L'A' - L'a');
		}
		else { newData[i] = data[i]; }
	}

	newData[dataLen] = L'\0';
	return newData;
}

wchar_t* coco_string_create_lower(const wchar_t* data) {
	if (!data) { return NULL; }
	int dataLen = wcslen(data);
	return coco_string_create_lower(data, 0, dataLen);
}

wchar_t* coco_string_create_lower(const wchar_t* data, int startIndex, int dataLen) {
	if (!data) { return NULL; }

	wchar_t* newData = new wchar_t[dataLen + 1];

	for (int i = 0; i <= dataLen; i++) {
		wchar_t ch = data[startIndex + i];
		if ((L'A' <= ch) && (ch <= L'Z')) {
			newData[i] = ch - (L'A' - L'a');
		}
		else { newData[i] = ch; }
	}
	newData[dataLen] = L'\0';
	return newData;
}

wchar_t* coco_string_create_append(const wchar_t* data1, const wchar_t* data2) {
	wchar_t* data;
	int data1Len = 0;
	int data2Len = 0;

	if (data1) { data1Len = wcslen(data1); }
	if (data2) {data2Len = wcslen(data2); }

	data = new wchar_t[data1Len + data2Len + 1];

	if (data1) { wcscpy(data, data1); }
	if (data2) { wcscpy(data + data1Len, data2); }

	data[data1Len + data2Len] = 0;

	return data;
}

wchar_t* coco_string_create_append(const wchar_t *target, const wchar_t appendix) {
	int targetLen = coco_string_length(target);
	wchar_t* data = new wchar_t[targetLen + 2];
	wcsncpy(data, target, targetLen);
	data[targetLen] = appendix;
	data[targetLen + 1] = 0;
	return data;
}

void coco_string_delete(wchar_t* &data) {
	delete [] data;
	data = NULL;
}

int coco_string_length(const wchar_t* data) {
	if (data) { return wcslen(data); }
	return 0;
}

bool coco_string_endswith(const wchar_t* data, const wchar_t *end) {
	int dataLen = wcslen(data);
	int endLen = wcslen(end);
	return (endLen <= dataLen) && (wcscmp(data + dataLen - endLen, end) == 0);
}

int coco_string_indexof(const wchar_t* data, const wchar_t value) {
	const wchar_t* chr = wcschr(data, value);

	if (chr) { return (chr-data); }
	return -1;
}

int coco_string_lastindexof(const wchar_t* data, const wchar_t value) {
	const wchar_t* chr = wcsrchr(data, value);

	if (chr) { return (chr-data); }
	return -1;
}

void coco_string_merge(wchar_t* &target, const wchar_t* appendix) {
	if (!appendix) { return; }
	wchar_t* data = coco_string_create_append(target, appendix);
	delete [] target;
	target = data;
}

bool coco_string_equal(const wchar_t* data1, const wchar_t* data2) {
	return wcscmp( data1, data2 ) == 0;
}

int coco_string_compareto(const wchar_t* data1, const wchar_t* data2) {
	return wcscmp(data1, data2);
}

int coco_string_hash(const wchar_t *data) {
	int h = 0;
	if (!data) { return 0; }
	while (*data != 0) {
		h = (h * 7) ^ *data;
		++data;
	}
	if (h < 0) { h = -h; }
	return h;
}

// string handling, ascii character

wchar_t* coco_string_create(const char* value) {
	int len = 0;
	if (value) { len = strlen(value); }
	wchar_t* data = new wchar_t[len + 1];
	for (int i = 0; i < len; ++i) { data[i] = (wchar_t) value[i]; }
	data[len] = 0;
	return data;
}

char* coco_string_create_char(const wchar_t *value) {
	int len = coco_string_length(value);
	char *res = new char[len + 1];
	for (int i = 0; i < len; ++i) { res[i] = (char) value[i]; }
	res[len] = 0;
	return res;
}

void coco_string_delete(char* &data) {
	delete [] data;
	data = NULL;
}


Token::Token() {
	kind = 0;
	pos  = 0;
	col  = 0;
	line = 0;
	val  = NULL;
	next = NULL;
}

Token::~Token() {
	coco_string_delete(val);
}

Buffer::Buffer(FILE* s, bool isUserStream) {
// ensure binary read on windows
#if _MSC_VER >= 1300
	_setmode(_fileno(s), _O_BINARY);
#endif
	stream = s; this->isUserStream = isUserStream;
	if (CanSeek()) {
		fseek(s, 0, SEEK_END);
		fileLen = ftell(s);
		fseek(s, 0, SEEK_SET);
		bufLen = (fileLen < COCO_MAX_BUFFER_LENGTH) ? fileLen : COCO_MAX_BUFFER_LENGTH;
		bufStart = INT_MAX; // nothing in the buffer so far
	} else {
		fileLen = bufLen = bufStart = 0;
	}
	bufCapacity = (bufLen>0) ? bufLen : COCO_MIN_BUFFER_LENGTH;
	buf = new unsigned char[bufCapacity];	
	if (fileLen > 0) SetPos(0);          // setup  buffer to position 0 (start)
	else bufPos = 0; // index 0 is already after the file, thus Pos = 0 is invalid
	if (bufLen == fileLen && CanSeek()) Close();
}

Buffer::Buffer(Buffer *b) {
	buf = b->buf;
	bufCapacity = b->bufCapacity;
	b->buf = NULL;
	bufStart = b->bufStart;
	bufLen = b->bufLen;
	fileLen = b->fileLen;
	bufPos = b->bufPos;
	stream = b->stream;
	b->stream = NULL;
	isUserStream = b->isUserStream;
}

Buffer::Buffer(const unsigned char* buf, int len) {
	this->buf = new unsigned char[len];
	memcpy(this->buf, buf, len*sizeof(unsigned char));
	bufStart = 0;
	bufCapacity = bufLen = len;
	fileLen = len;
	bufPos = 0;
	stream = NULL;
}

Buffer::~Buffer() {
	Close(); 
	if (buf != NULL) {
		delete [] buf;
		buf = NULL;
	}
}

void Buffer::Close() {
	if (!isUserStream && stream != NULL) {
		fclose(stream);
		stream = NULL;
	}
}

int Buffer::Read() {
	if (bufPos < bufLen) {
		return buf[bufPos++];
	} else if (GetPos() < fileLen) {
		SetPos(GetPos()); // shift buffer start to Pos
		return buf[bufPos++];
	} else if ((stream != NULL) && !CanSeek() && (ReadNextStreamChunk() > 0)) {
		return buf[bufPos++];
	} else {
		return EoF;
	}
}

int Buffer::Peek() {
	int curPos = GetPos();
	int ch = Read();
	SetPos(curPos);
	return ch;
}

// beg .. begin, zero-based, inclusive, in byte
// end .. end, zero-based, exclusive, in byte
wchar_t* Buffer::GetString(int beg, int end) {
	int len = 0;
	wchar_t *buf = new wchar_t[end - beg];
	int oldPos = GetPos();
	SetPos(beg);
	while (GetPos() < end) buf[len++] = (wchar_t) Read();
	SetPos(oldPos);
	wchar_t *res = coco_string_create(buf, 0, len);
	coco_string_delete(buf);
	return res;
}

int Buffer::GetPos() {
	return bufPos + bufStart;
}

void Buffer::SetPos(int value) {
	if ((value >= fileLen) && (stream != NULL) && !CanSeek()) {
		// Wanted position is after buffer and the stream
		// is not seek-able e.g. network or console,
		// thus we have to read the stream manually till
		// the wanted position is in sight.
		while ((value >= fileLen) && (ReadNextStreamChunk() > 0));
	}

	if ((value < 0) || (value > fileLen)) {
		wprintf(L"--- buffer out of bounds access, position: %d\n", value);
		exit(1);
	}

	if ((value >= bufStart) && (value < (bufStart + bufLen))) { // already in buffer
		bufPos = value - bufStart;
	} else if (stream != NULL) { // must be swapped in
		fseek(stream, value, SEEK_SET);
		bufLen = fread(buf, sizeof(unsigned char), bufCapacity, stream);
		bufStart = value; bufPos = 0;
	} else {
		bufPos = fileLen - bufStart; // make Pos return fileLen
	}
}

// Read the next chunk of bytes from the stream, increases the buffer
// if needed and updates the fields fileLen and bufLen.
// Returns the number of bytes read.
int Buffer::ReadNextStreamChunk() {
	int free = bufCapacity - bufLen;
	if (free == 0) {
		// in the case of a growing input stream
		// we can neither seek in the stream, nor can we
		// foresee the maximum length, thus we must adapt
		// the buffer size on demand.
		bufCapacity = bufLen * 2;
		unsigned char *newBuf = new unsigned char[bufCapacity];
		memcpy(newBuf, buf, bufLen*sizeof(unsigned char));
		delete [] buf;
		buf = newBuf;
		free = bufLen;
	}
	int read = fread(buf + bufLen, sizeof(unsigned char), free, stream);
	if (read > 0) {
		fileLen = bufLen = (bufLen + read);
		return read;
	}
	// end of stream reached
	return 0;
}

bool Buffer::CanSeek() {
	return (stream != NULL) && (ftell(stream) != -1);
}

int UTF8Buffer::Read() {
	int ch;
	do {
		ch = Buffer::Read();
		// until we find a utf8 start (0xxxxxxx or 11xxxxxx)
	} while ((ch >= 128) && ((ch & 0xC0) != 0xC0) && (ch != EoF));
	if (ch < 128 || ch == EoF) {
		// nothing to do, first 127 chars are the same in ascii and utf8
		// 0xxxxxxx or end of file character
	} else if ((ch & 0xF0) == 0xF0) {
		// 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx
		int c1 = ch & 0x07; ch = Buffer::Read();
		int c2 = ch & 0x3F; ch = Buffer::Read();
		int c3 = ch & 0x3F; ch = Buffer::Read();
		int c4 = ch & 0x3F;
		ch = (((((c1 << 6) | c2) << 6) | c3) << 6) | c4;
	} else if ((ch & 0xE0) == 0xE0) {
		// 1110xxxx 10xxxxxx 10xxxxxx
		int c1 = ch & 0x0F; ch = Buffer::Read();
		int c2 = ch & 0x3F; ch = Buffer::Read();
		int c3 = ch & 0x3F;
		ch = (((c1 << 6) | c2) << 6) | c3;
	} else if ((ch & 0xC0) == 0xC0) {
		// 110xxxxx 10xxxxxx
		int c1 = ch & 0x1F; ch = Buffer::Read();
		int c2 = ch & 0x3F;
		ch = (c1 << 6) | c2;
	}
	return ch;
}

Scanner::Scanner(const unsigned char* buf, int len) {
	buffer = new Buffer(buf, len);
	Init();
}

Scanner::Scanner(const wchar_t* fileName) {
	FILE* stream;
	char *chFileName = coco_string_create_char(fileName);
	if ((stream = fopen(chFileName, "rb")) == NULL) {
		wprintf(L"--- Cannot open file %ls\n", fileName);
		exit(1);
	}
	coco_string_delete(chFileName);
	buffer = new Buffer(stream, false);
	Init();
}

Scanner::Scanner(FILE* s) {
	buffer = new Buffer(s, true);
	Init();
}

Scanner::~Scanner() {
	char* cur = (char*) firstHeap;

	while(cur != NULL) {
		cur = *(char**) (cur + COCO_HEAP_BLOCK_SIZE);
		free(firstHeap);
		firstHeap = cur;
	}
	delete [] tval;
	delete buffer;
}

void Scanner::Init() {
	EOL    = '\n';
	eofSym = 0;
-->declarations

	tvalLength = 128;
	tval = new wchar_t[tvalLength]; // text of current token

	// COCO_HEAP_BLOCK_SIZE byte heap + pointer to next heap block
	heap = malloc(COCO_HEAP_BLOCK_SIZE + sizeof(void*));
	firstHeap = heap;
	heapEnd = (void**) (((char*) heap) + COCO_HEAP_BLOCK_SIZE);
	*heapEnd = 0;
	heapTop = heap;
	if (sizeof(Token) > COCO_HEAP_BLOCK_SIZE) {
		wprintf(L"--- Too small COCO_HEAP_BLOCK_SIZE\n");
		exit(1);
	}

	pos = -1; line = 1; col = 0; charPos = -1;
	oldEols = 0;
	NextCh();
	if (ch == 0xEF) { // check optional byte order mark for UTF-8
		NextCh(); int ch1 = ch;
		NextCh(); int ch2 = ch;
		if (ch1 != 0xBB || ch2 != 0xBF) {
			wprintf(L"Illegal byte order mark at start of file");
			exit(1);
		}
		Buffer *oldBuf = buffer;
		buffer = new UTF8Buffer(buffer); col = 0; charPos = -1;
		delete oldBuf; oldBuf = NULL;
		NextCh();
	}

-->initialization
	pt = tokens = CreateToken(); // first token is a dummy
}

void Scanner::NextCh() {
	if (oldEols > 0) { ch = EOL; oldEols--; }
	else {
		pos = buffer->GetPos();
		// buffer reads unicode chars, if UTF8 has been detected
		ch = buffer->Read(); col++; charPos++;
		// replace isolated '\r' by '\n' in order to make
		// eol handling uniform across Windows, Unix and Mac
		if (ch == L'\r' && buffer->Peek() != L'\n') ch = EOL;
		if (ch == EOL) { line++; col = 0; }
	}
-->casing1
}

void Scanner::AddCh() {
	if (tlen >= tvalLength) {
		tvalLength *= 2;
		wchar_t *newBuf = new wchar_t[tvalLength];
		memcpy(newBuf, tval, tlen*sizeof(wchar_t));
		delete [] tval;
		tval = newBuf;
	}
	if (ch != Buffer::EoF) {
-->casing2
		NextCh();
	}
}

-->comments

void Scanner::CreateHeapBlock() {
	void* newHeap;
	char* cur = (char*) firstHeap;

	while(((char*) tokens < cur) || ((char*) tokens > (cur + COCO_HEAP_BLOCK_SIZE))) {
		cur = *((char**) (cur + COCO_HEAP_BLOCK_SIZE));
		free(firstHeap);
		firstHeap = cur;
	}

	// COCO_HEAP_BLOCK_SIZE byte heap + pointer to next heap block
	newHeap = malloc(COCO_HEAP_BLOCK_SIZE + sizeof(void*));
	*heapEnd = newHeap;
	heapEnd = (void**) (((char*) newHeap) + COCO_HEAP_BLOCK_SIZE);
	*heapEnd = 0;
	heap = newHeap;
	heapTop = heap;
}

Token* Scanner::CreateToken() {
	Token *t;
	if (((char*) heapTop + (int) sizeof(Token)) >= (char*) heapEnd) {
		CreateHeapBlock();
	}
	t = (Token*) heapTop;
	heapTop = (void*) ((char*) heapTop + sizeof(Token));
	t->val = NULL;
	t->next = NULL;
	return t;
}

void Scanner::AppendVal(Token *t) {
	int reqMem = (tlen + 1) * sizeof(wchar_t);
	if (((char*) heapTop + reqMem) >= (char*) heapEnd) {
		if (reqMem > COCO_HEAP_BLOCK_SIZE) {
			wprintf(L"--- Too long token value\n");
			exit(1);
		}
		CreateHeapBlock();
	}
	t->val = (wchar_t*) heapTop;
	heapTop = (void*) ((char*) heapTop + reqMem);

	wcsncpy(t->val, tval, tlen);
	t->val[tlen] = L'\0';
}

Token* Scanner::NextToken() {
	while (ch == ' ' ||
-->scan1
	) NextCh();
-->scan2
	int recKind = noSym;
	int recEnd = pos;
	t = CreateToken();
	t->pos = pos; t->col = col; t->line = line; t->charPos = charPos;
	int state = start.state(ch);
	tlen = 0; AddCh();

	switch (state) {
		case -1: { t->kind = eofSym; break; } // NextCh already done
		case 0: {
			case_0:
			if (recKind != noSym) {
				tlen = recEnd - t->pos;
				SetScannerBehindT();
			}
			t->kind = recKind; break;
		} // NextCh already done
-->scan3
	}
	AppendVal(t);
	return t;
}

void Scanner::SetScannerBehindT() {
	buffer->SetPos(t->pos);
	NextCh();
	line = t->line; col = t->col; charPos = t->charPos;
	for (int i = 0; i < tlen; i++) NextCh();
}

// get the next token (possibly a token already seen during peeking)
Token* Scanner::Scan() {
	if (tokens->next == NULL) {
		return pt = tokens = NextToken();
	} else {
		pt = tokens = tokens->next;
		return tokens;
	}
}

// peek for the next token, ignore pragmas
Token* Scanner::Peek() {
	do {
		if (pt->next == NULL) {
			pt->next = NextToken();
		}
		pt = pt->next;
	} while (pt->kind > maxT); // skip pragmas

	return pt;
}

// make sure that peeking starts at the current scan position
void Scanner::ResetPeek() {
	pt = tokens;
}

-->namespace_close