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|
// -*- c-basic-offset: 2 -*-
/*
* This file is part of the KDE libraries
* Copyright (C) 1999-2000 Harri Porten ([email protected])
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <ctype.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include "value.h"
#include "object.h"
#include "types.h"
#include "interpreter.h"
#include "nodes.h"
#include "lexer.h"
#include "identifier.h"
#include "lookup.h"
#include "internal.h"
#include "dtoa.h"
// we can't specify the namespace in yacc's C output, so do it here
using namespace KJS;
static Lexer *currLexer = 0;
#ifndef KDE_USE_FINAL
#include "grammar.h"
#endif
#include "lexer.lut.h"
extern YYLTYPE yylloc; // global bison variable holding token info
// a bridge for yacc from the C world to C++
int kjsyylex()
{
return Lexer::curr()->lex();
}
Lexer::Lexer()
: yylineno(1),
size8(128), size16(128), restrKeyword(false),
convertNextIdentifier(false), stackToken(-1), lastToken(-1), pos(0),
code(0), length(0),
#ifndef KJS_PURE_ECMA
bol(true),
#endif
current(0), next1(0), next2(0), next3(0),
strings(0), numStrings(0), stringsCapacity(0),
identifiers(0), numIdentifiers(0), identifiersCapacity(0)
{
// allocate space for read buffers
buffer8 = new char[size8];
buffer16 = new UChar[size16];
currLexer = this;
}
Lexer::~Lexer()
{
delete [] buffer8;
delete [] buffer16;
}
Lexer *Lexer::curr()
{
if (!currLexer) {
// create singleton instance
currLexer = new Lexer();
}
return currLexer;
}
#ifdef KJS_DEBUG_MEM
void Lexer::globalClear()
{
delete currLexer;
currLexer = 0L;
}
#endif
void Lexer::setCode(const UChar *c, unsigned int len)
{
yylineno = 1;
restrKeyword = false;
delimited = false;
convertNextIdentifier = false;
stackToken = -1;
lastToken = -1;
foundBad = false;
pos = 0;
code = c;
length = len;
skipLF = false;
skipCR = false;
#ifndef KJS_PURE_ECMA
bol = true;
#endif
// read first characters
current = (length > 0) ? code[0].uc : -1;
next1 = (length > 1) ? code[1].uc : -1;
next2 = (length > 2) ? code[2].uc : -1;
next3 = (length > 3) ? code[3].uc : -1;
}
void Lexer::shift(unsigned int p)
{
while (p--) {
pos++;
current = next1;
next1 = next2;
next2 = next3;
next3 = (pos + 3 < length) ? code[pos+3].uc : -1;
}
}
// called on each new line
void Lexer::nextLine()
{
yylineno++;
#ifndef KJS_PURE_ECMA
bol = true;
#endif
}
void Lexer::setDone(State s)
{
state = s;
done = true;
}
int Lexer::lex()
{
int token = 0;
state = Start;
unsigned short stringType = 0; // either single or double quotes
pos8 = pos16 = 0;
done = false;
terminator = false;
skipLF = false;
skipCR = false;
// did we push a token on the stack previously ?
// (after an automatic semicolon insertion)
if (stackToken >= 0) {
setDone(Other);
token = stackToken;
stackToken = 0;
}
while (!done) {
if (skipLF && current != '\n') // found \r but not \n afterwards
skipLF = false;
if (skipCR && current != '\r') // found \n but not \r afterwards
skipCR = false;
if (skipLF || skipCR) // found \r\n or \n\r -> eat the second one
{
skipLF = false;
skipCR = false;
shift(1);
}
bool cr = (current == '\r');
bool lf = (current == '\n');
if (cr)
skipLF = true;
else if (lf)
skipCR = true;
bool isLineTerminator = cr || lf;
switch (state) {
case Start:
if (isWhiteSpace(current)) {
// do nothing
} else if (current == '/' && next1 == '/') {
shift(1);
state = InSingleLineComment;
} else if (current == '/' && next1 == '*') {
shift(1);
state = InMultiLineComment;
} else if (current == -1) {
if (!terminator && !delimited) {
// automatic semicolon insertion if program incomplete
token = ';';
stackToken = 0;
setDone(Other);
} else
setDone(Eof);
} else if (isLineTerminator) {
nextLine();
terminator = true;
if (restrKeyword) {
token = ';';
setDone(Other);
}
} else if (current == '"' || current == '\'') {
state = InString;
stringType = current;
} else if (isIdentLetter(current)) {
record16(current);
state = InIdentifierOrKeyword;
} else if (current == '\\') {
state = InIdentifierUnicodeEscapeStart;
} else if (current == '0') {
record8(current);
state = InNum0;
} else if (isDecimalDigit(current)) {
record8(current);
state = InNum;
} else if (current == '.' && isDecimalDigit(next1)) {
record8(current);
state = InDecimal;
#ifndef KJS_PURE_ECMA
// <!-- marks the beginning of a line comment (for www usage)
} else if (current == '<' && next1 == '!' &&
next2 == '-' && next3 == '-') {
shift(3);
state = InSingleLineComment;
// same for -->
} else if (bol && current == '-' && next1 == '-' && next2 == '>') {
shift(2);
state = InSingleLineComment;
#endif
} else {
token = matchPunctuator(current, next1, next2, next3);
if (token != -1) {
setDone(Other);
} else {
// cerr << "encountered unknown character" << endl;
setDone(Bad);
}
}
break;
case InString:
if (current == stringType) {
shift(1);
setDone(String);
} else if (current == -1 || isLineTerminator) {
setDone(Bad);
} else if (current == '\\') {
state = InEscapeSequence;
} else {
record16(current);
}
break;
// Escape Sequences inside of strings
case InEscapeSequence:
if (isOctalDigit(current)) {
if (current >= '0' && current <= '3' &&
isOctalDigit(next1) && isOctalDigit(next2)) {
record16(convertOctal(current, next1, next2));
shift(2);
state = InString;
} else if (isOctalDigit(current) && isOctalDigit(next1)) {
record16(convertOctal('0', current, next1));
shift(1);
state = InString;
} else if (isOctalDigit(current)) {
record16(convertOctal('0', '0', current));
state = InString;
} else {
setDone(Bad);
}
} else if (current == 'x')
state = InHexEscape;
else if (current == 'u')
state = InUnicodeEscape;
else {
if (isLineTerminator)
nextLine();
record16(singleEscape(current));
state = InString;
}
break;
case InHexEscape:
if (isHexDigit(current) && isHexDigit(next1)) {
state = InString;
record16(convertHex(current, next1));
shift(1);
} else if (current == stringType) {
record16('x');
shift(1);
setDone(String);
} else {
record16('x');
record16(current);
state = InString;
}
break;
case InUnicodeEscape:
if (isHexDigit(current) && isHexDigit(next1) &&
isHexDigit(next2) && isHexDigit(next3)) {
record16(convertUnicode(current, next1, next2, next3));
shift(3);
state = InString;
} else if (current == stringType) {
record16('u');
shift(1);
setDone(String);
} else {
setDone(Bad);
}
break;
case InSingleLineComment:
if (isLineTerminator) {
nextLine();
terminator = true;
if (restrKeyword) {
token = ';';
setDone(Other);
} else
state = Start;
} else if (current == -1) {
setDone(Eof);
}
break;
case InMultiLineComment:
if (current == -1) {
setDone(Bad);
} else if (isLineTerminator) {
nextLine();
} else if (current == '*' && next1 == '/') {
state = Start;
shift(1);
}
break;
case InIdentifierOrKeyword:
case InIdentifier:
if (isIdentLetter(current) || isDecimalDigit(current))
record16(current);
else if (current == '\\')
state = InIdentifierUnicodeEscapeStart;
else
setDone(state == InIdentifierOrKeyword ? IdentifierOrKeyword : Identifier);
break;
case InNum0:
if (current == 'x' || current == 'X') {
record8(current);
state = InHex;
} else if (current == '.') {
record8(current);
state = InDecimal;
} else if (current == 'e' || current == 'E') {
record8(current);
state = InExponentIndicator;
} else if (isOctalDigit(current)) {
record8(current);
state = InOctal;
} else if (isDecimalDigit(current)) {
record8(current);
state = InDecimal;
} else {
setDone(Number);
}
break;
case InHex:
if (isHexDigit(current)) {
record8(current);
} else {
setDone(Hex);
}
break;
case InOctal:
if (isOctalDigit(current)) {
record8(current);
}
else if (isDecimalDigit(current)) {
record8(current);
state = InDecimal;
} else
setDone(Octal);
break;
case InNum:
if (isDecimalDigit(current)) {
record8(current);
} else if (current == '.') {
record8(current);
state = InDecimal;
} else if (current == 'e' || current == 'E') {
record8(current);
state = InExponentIndicator;
} else
setDone(Number);
break;
case InDecimal:
if (isDecimalDigit(current)) {
record8(current);
} else if (current == 'e' || current == 'E') {
record8(current);
state = InExponentIndicator;
} else
setDone(Number);
break;
case InExponentIndicator:
if (current == '+' || current == '-') {
record8(current);
} else if (isDecimalDigit(current)) {
record8(current);
state = InExponent;
} else
setDone(Bad);
break;
case InExponent:
if (isDecimalDigit(current)) {
record8(current);
} else
setDone(Number);
break;
case InIdentifierUnicodeEscapeStart:
if (current == 'u')
state = InIdentifierUnicodeEscape;
else
setDone(Bad);
break;
case InIdentifierUnicodeEscape:
if (isHexDigit(current) && isHexDigit(next1) && isHexDigit(next2) && isHexDigit(next3)) {
record16(convertUnicode(current, next1, next2, next3));
shift(3);
state = InIdentifier;
} else {
setDone(Bad);
}
break;
default:
assert(!"Unhandled state in switch statement");
}
// move on to the next character
if (!done)
shift(1);
#ifndef KJS_PURE_ECMA
if (state != Start && state != InSingleLineComment)
bol = false;
#endif
}
// no identifiers allowed directly after numeric literal, e.g. "3in" is bad
if ((state == Number || state == Octal || state == Hex)
&& isIdentLetter(current))
state = Bad;
// terminate string
buffer8[pos8] = '\0';
#ifdef KJS_DEBUG_LEX
fprintf(stderr, "line: %d ", lineNo());
fprintf(stderr, "yytext (%x): ", buffer8[0]);
fprintf(stderr, "%s ", buffer8);
#endif
long double dval = 0;
if (state == Number) {
dval = kjs_strtod(buffer8, 0L);
} else if (state == Hex) { // scan hex numbers
dval = 0;
if (buffer8[0] == '0' && (buffer8[1] == 'x' || buffer8[1] == 'X')) {
for (const char *p = buffer8+2; *p; p++) {
if (!isHexDigit(*p)) {
dval = 0;
break;
}
dval = dval * 16 + convertHex(*p);
}
}
state = Number;
} else if (state == Octal) { // scan octal number
dval = 0;
if (buffer8[0] == '0') {
for (const char *p = buffer8+1; *p; p++) {
if (*p < '0' || *p > '7') {
dval = 0;
break;
}
dval = dval * 8 + *p - '0';
}
}
state = Number;
}
#ifdef KJS_DEBUG_LEX
switch (state) {
case Eof:
printf("(EOF)\n");
break;
case Other:
printf("(Other)\n");
break;
case Identifier:
case IdentifierOrKeyword:
printf("(Identifier)/(Keyword)\n");
break;
case String:
printf("(String)\n");
break;
case Number:
printf("(Number)\n");
break;
default:
printf("(unknown)");
}
#endif
if (state != Identifier && state != IdentifierOrKeyword &&
convertNextIdentifier)
convertNextIdentifier = false;
restrKeyword = false;
delimited = false;
kjsyylloc.first_line = yylineno; // ???
kjsyylloc.last_line = yylineno;
switch (state) {
case Eof:
token = 0;
break;
case Other:
if(token == '}' || token == ';') {
delimited = true;
}
break;
case IdentifierOrKeyword:
if ((token = Lookup::find(&mainTable, buffer16, pos16)) < 0) {
case Identifier:
// Lookup for keyword failed, means this is an identifier
// Apply anonymous-function hack below (convert the identifier)
if (convertNextIdentifier) {
convertNextIdentifier = false;
#ifdef KJS_VERBOSE
UString debugstr(buffer16, pos16); fprintf(stderr,"Anonymous function hack: eating identifier %s\n",debugstr.ascii());
#endif
token = FUNCEXPRIDENT;
} else {
token = IDENT;
}
/* TODO: close leak on parse error. same holds true for String */
kjsyylval.ident = makeIdentifier(buffer16, pos16);
break;
}
convertNextIdentifier = false;
// Hack for "f = function somename() { ... }", too hard to get into the grammar
// Same for building an array with function pointers ( 'name', func1, 'name2', func2 )
// There are lots of other uses, we really have to get this into the grammar
if ( token == FUNCTION &&
( lastToken == '=' || lastToken == ',' || lastToken == '(' ||
lastToken == ':' || lastToken == RETURN ) )
convertNextIdentifier = true;
if (token == CONTINUE || token == BREAK ||
token == RETURN || token == THROW)
restrKeyword = true;
break;
case String:
kjsyylval.ustr = makeUString(buffer16, pos16);
token = STRING;
break;
case Number:
kjsyylval.dval = dval;
token = NUMBER;
break;
case Bad:
foundBad = true;
return -1;
default:
assert(!"unhandled numeration value in switch");
return -1;
}
lastToken = token;
return token;
}
bool Lexer::isWhiteSpace(unsigned short c)
{
return (c == ' ' || c == '\t' ||
c == 0x0b || c == 0x0c || c == 0xa0);
}
bool Lexer::isIdentLetter(unsigned short c)
{
// Allow any character in the Unicode categories
// Uppercase letter (Lu), Lowercase letter (Ll),
// Titlecase letter (Lt)", Modifier letter (Lm),
// Other letter (Lo), or Letter number (Nl).
// Also see: http://www.unicode.org/Public/UNIDATA/UnicodeData.txt */
return (c >= 'a' && c <= 'z' ||
c >= 'A' && c <= 'Z' ||
// A with grave - O with diaeresis
c >= 0x00c0 && c <= 0x00d6 ||
// O with stroke - o with diaeresis
c >= 0x00d8 && c <= 0x00f6 ||
// o with stroke - turned h with fishook and tail
c >= 0x00f8 && c <= 0x02af ||
// Greek etc. TODO: not precise
c >= 0x0388 && c <= 0x1ffc ||
c == '$' || c == '_');
/* TODO: use complete category table */
}
bool Lexer::isDecimalDigit(unsigned short c)
{
return (c >= '0' && c <= '9');
}
bool Lexer::isHexDigit(unsigned short c)
{
return (c >= '0' && c <= '9' ||
c >= 'a' && c <= 'f' ||
c >= 'A' && c <= 'F');
}
bool Lexer::isOctalDigit(unsigned short c)
{
return (c >= '0' && c <= '7');
}
int Lexer::matchPunctuator(unsigned short c1, unsigned short c2,
unsigned short c3, unsigned short c4)
{
if (c1 == '>' && c2 == '>' && c3 == '>' && c4 == '=') {
shift(4);
return URSHIFTEQUAL;
} else if (c1 == '=' && c2 == '=' && c3 == '=') {
shift(3);
return STREQ;
} else if (c1 == '!' && c2 == '=' && c3 == '=') {
shift(3);
return STRNEQ;
} else if (c1 == '>' && c2 == '>' && c3 == '>') {
shift(3);
return URSHIFT;
} else if (c1 == '<' && c2 == '<' && c3 == '=') {
shift(3);
return LSHIFTEQUAL;
} else if (c1 == '>' && c2 == '>' && c3 == '=') {
shift(3);
return RSHIFTEQUAL;
} else if (c1 == '<' && c2 == '=') {
shift(2);
return LE;
} else if (c1 == '>' && c2 == '=') {
shift(2);
return GE;
} else if (c1 == '!' && c2 == '=') {
shift(2);
return NE;
} else if (c1 == '+' && c2 == '+') {
shift(2);
if (terminator)
return AUTOPLUSPLUS;
else
return PLUSPLUS;
} else if (c1 == '-' && c2 == '-') {
shift(2);
if (terminator)
return AUTOMINUSMINUS;
else
return MINUSMINUS;
} else if (c1 == '=' && c2 == '=') {
shift(2);
return EQEQ;
} else if (c1 == '+' && c2 == '=') {
shift(2);
return PLUSEQUAL;
} else if (c1 == '-' && c2 == '=') {
shift(2);
return MINUSEQUAL;
} else if (c1 == '*' && c2 == '=') {
shift(2);
return MULTEQUAL;
} else if (c1 == '/' && c2 == '=') {
shift(2);
return DIVEQUAL;
} else if (c1 == '&' && c2 == '=') {
shift(2);
return ANDEQUAL;
} else if (c1 == '^' && c2 == '=') {
shift(2);
return XOREQUAL;
} else if (c1 == '%' && c2 == '=') {
shift(2);
return MODEQUAL;
} else if (c1 == '|' && c2 == '=') {
shift(2);
return OREQUAL;
} else if (c1 == '<' && c2 == '<') {
shift(2);
return LSHIFT;
} else if (c1 == '>' && c2 == '>') {
shift(2);
return RSHIFT;
} else if (c1 == '&' && c2 == '&') {
shift(2);
return AND;
} else if (c1 == '|' && c2 == '|') {
shift(2);
return OR;
}
switch(c1) {
case '=':
case '>':
case '<':
case ',':
case '!':
case '~':
case '?':
case ':':
case '.':
case '+':
case '-':
case '*':
case '/':
case '&':
case '|':
case '^':
case '%':
case '(':
case ')':
case '{':
case '}':
case '[':
case ']':
case ';':
shift(1);
return static_cast<int>(c1);
default:
return -1;
}
}
unsigned short Lexer::singleEscape(unsigned short c) const
{
switch(c) {
case 'b':
return 0x08;
case 't':
return 0x09;
case 'n':
return 0x0A;
case 'v':
return 0x0B;
case 'f':
return 0x0C;
case 'r':
return 0x0D;
case '"':
return 0x22;
case '\'':
return 0x27;
case '\\':
return 0x5C;
default:
return c;
}
}
unsigned short Lexer::convertOctal(unsigned short c1, unsigned short c2,
unsigned short c3) const
{
return ((c1 - '0') * 64 + (c2 - '0') * 8 + c3 - '0');
}
unsigned char Lexer::convertHex(unsigned short c)
{
if (c >= '0' && c <= '9')
return (c - '0');
else if (c >= 'a' && c <= 'f')
return (c - 'a' + 10);
else
return (c - 'A' + 10);
}
unsigned char Lexer::convertHex(unsigned short c1, unsigned short c2)
{
return ((convertHex(c1) << 4) + convertHex(c2));
}
UChar Lexer::convertUnicode(unsigned short c1, unsigned short c2,
unsigned short c3, unsigned short c4)
{
return UChar((convertHex(c1) << 4) + convertHex(c2),
(convertHex(c3) << 4) + convertHex(c4));
}
void Lexer::record8(unsigned short c)
{
assert(c <= 0xff);
// enlarge buffer if full
if (pos8 >= size8 - 1) {
char *tmp = new char[2 * size8];
memcpy(tmp, buffer8, size8 * sizeof(char));
delete [] buffer8;
buffer8 = tmp;
size8 *= 2;
}
buffer8[pos8++] = (char) c;
}
void Lexer::record16(int c)
{
assert(c >= 0);
//assert(c <= USHRT_MAX);
record16(UChar(static_cast<unsigned short>(c)));
}
void Lexer::record16(UChar c)
{
// enlarge buffer if full
if (pos16 >= size16 - 1) {
UChar *tmp = new UChar[2 * size16];
memcpy(tmp, buffer16, size16 * sizeof(UChar));
delete [] buffer16;
buffer16 = tmp;
size16 *= 2;
}
buffer16[pos16++] = c;
}
bool Lexer::scanRegExp()
{
pos16 = 0;
bool lastWasEscape = false;
bool inBrackets = false;
while (1) {
if (current == '\r' || current == '\n' || current == -1)
return false;
else if (current != '/' || lastWasEscape == true || inBrackets == true)
{
// keep track of '[' and ']'
if ( !lastWasEscape ) {
if ( current == '[' && !inBrackets )
inBrackets = true;
if ( current == ']' && inBrackets )
inBrackets = false;
}
record16(current);
lastWasEscape =
!lastWasEscape && (current == '\\');
}
else { // end of regexp
pattern = UString(buffer16, pos16);
pos16 = 0;
shift(1);
break;
}
shift(1);
}
while (isIdentLetter(current)) {
record16(current);
shift(1);
}
flags = UString(buffer16, pos16);
return true;
}
void Lexer::doneParsing()
{
for (unsigned i = 0; i < numIdentifiers; i++) {
delete identifiers[i];
}
free(identifiers);
identifiers = 0;
numIdentifiers = 0;
identifiersCapacity = 0;
for (unsigned i = 0; i < numStrings; i++) {
delete strings[i];
}
free(strings);
strings = 0;
numStrings = 0;
stringsCapacity = 0;
}
const int initialCapacity = 64;
const int growthFactor = 2;
Identifier *Lexer::makeIdentifier(UChar *buffer, unsigned int pos)
{
if (numIdentifiers == identifiersCapacity) {
identifiersCapacity = (identifiersCapacity == 0) ? initialCapacity : identifiersCapacity *growthFactor;
identifiers = (KJS::Identifier **)realloc(identifiers, sizeof(KJS::Identifier *) * identifiersCapacity);
}
KJS::Identifier *identifier = new KJS::Identifier(buffer, pos);
identifiers[numIdentifiers++] = identifier;
return identifier;
}
UString *Lexer::makeUString(UChar *buffer, unsigned int pos)
{
if (numStrings == stringsCapacity) {
stringsCapacity = (stringsCapacity == 0) ? initialCapacity : stringsCapacity *growthFactor;
strings = (UString **)realloc(strings, sizeof(UString *) * stringsCapacity);
}
UString *string = new UString(buffer, pos);
strings[numStrings++] = string;
return string;
}
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