pjs/dom/tools/IdlScanner.cpp

1369 строки
38 KiB
C++

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* The contents of this file are subject to the Netscape Public License
* Version 1.0 (the "NPL"); you may not use this file except in
* compliance with the NPL. You may obtain a copy of the NPL at
* http://www.mozilla.org/NPL/
*
* Software distributed under the NPL is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL
* for the specific language governing rights and limitations under the
* NPL.
*
* The Initial Developer of this code under the NPL is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998 Netscape Communications Corporation. All Rights
* Reserved.
*/
#include "IdlScanner.h"
#include <fstream.h>
#include <ctype.h>
#ifdef XP_MAC
#pragma warn_possunwant off
#endif
IdlScanner::IdlScanner()
{
mFileName = (char*)0;
mInputFile = new ifstream();
mToken1 = new Token();
mToken2 = new Token();
mCurrentToken = (Token*)0;
mTokenPeeked = 0;
mLineNumber = 1;
for (int i = 0; i < MAX_ID_LENGHT; i++) mTokenName[i] = 0;
}
IdlScanner::~IdlScanner()
{
if (mFileName) {
delete mFileName;
}
delete mInputFile;
delete mToken1;
delete mToken2;
}
char* IdlScanner::GetFileName()
{
return mFileName;
}
void IdlScanner::SetFileName(char *aFileName)
{
if (mFileName) {
delete mFileName;
mFileName = (char*)0;
}
if (aFileName) {
size_t length = strlen(aFileName) + 1;
mFileName = new char[length];
strcpy(mFileName, aFileName);
}
}
long IdlScanner::GetLineNumber()
{
return mLineNumber;
}
int IdlScanner::Open(char *aFileName)
{
mInputFile->close();
mInputFile->clear();
#ifdef XP_MAC
mInputFile->open(aFileName, ios::in); // no 'nocreate' flag on Mac?
#else
mInputFile->open(aFileName, ios::in | ios::nocreate);
#endif
SetFileName(aFileName);
return mInputFile->is_open();
}
int IdlScanner::CanReadMoreData()
{
#ifndef XP_MAC
return !(mInputFile->eof());
#else
return !(mInputFile->fail()); // not sure why EOF does not work
#endif
}
//
// Read the next token and return it.
// The difference with NextToken is that consecutive calls to PeekToken
// return the same token.
// PeekToken is reset when NextToken is called.
// This way PeekToken acts like the single token look ahead needed by the parser
// in order to disambiguate the grammar in some situation.
// A sequence like - NextToken, PeekToken -
// returns two different tokens the parser can hold on to decide what to do.
//
Token* IdlScanner::PeekToken()
{
if (mTokenPeeked == 0) {
NextToken();
mTokenPeeked = 1;
}
return mCurrentToken;
}
//
// Read the next token and return it.
//
Token* IdlScanner::NextToken()
{
if (mTokenPeeked) {
mTokenPeeked = 0;
}
else {
SetCurrentToken();
int c = EatWhiteSpace();
if (EOF != c) {
for (int i = 1; i < MAX_ID_LENGHT; i++) mTokenName[i] = 0;
mTokenName[0] = c;
mCurrentToken->SetToken(ERROR_TOKEN);
switch(c) {
case '(':
mCurrentToken->SetToken(FUNC_PARAMS_SPEC_BEGIN_TOKEN);
break;
case ')':
mCurrentToken->SetToken(FUNC_PARAMS_SPEC_END_TOKEN);
break;
case ',':
mCurrentToken->SetToken(SEPARATOR_TOKEN);
break;
case '/':
Comment(mTokenName + 1, mCurrentToken); // could be a comment
break;
case ':':
mCurrentToken->SetToken(INHERITANCE_SPEC_TOKEN);
break;
case ';':
mCurrentToken->SetToken(TERMINATOR_TOKEN);
break;
case '{':
mCurrentToken->SetToken(BEGIN_BLOCK_TOKEN);
break;
case '}':
mCurrentToken->SetToken(END_BLOCK_TOKEN);
break;
case '=':
mCurrentToken->SetToken(ASSIGNEMENT_TOKEN);
break;
case 'a':
AKeywords(mTokenName + 1, mCurrentToken);
break;
case 'b':
BKeywords(mTokenName + 1, mCurrentToken);
break;
case 'c':
CKeywords(mTokenName + 1, mCurrentToken);
break;
case 'd':
case 'D':
DKeywords(mTokenName + 1, mCurrentToken);
break;
case 'e':
EKeywords(mTokenName + 1, mCurrentToken);
break;
case 'f':
FKeywords(mTokenName + 1, mCurrentToken);
break;
case 'i':
IKeywords(mTokenName + 1, mCurrentToken);
break;
case 'l':
LKeywords(mTokenName + 1, mCurrentToken);
break;
case 'o':
OKeywords(mTokenName + 1, mCurrentToken);
break;
case 'r':
RKeywords(mTokenName + 1, mCurrentToken);
break;
case 's':
SKeywords(mTokenName + 1, mCurrentToken);
break;
case 't':
TKeywords(mTokenName + 1, mCurrentToken);
break;
case 'u':
UKeywords(mTokenName + 1, mCurrentToken);
break;
case 'v':
VKeywords(mTokenName + 1, mCurrentToken);
break;
case 'w':
WKeywords(mTokenName + 1, mCurrentToken);
break;
case 'x':
XKeywords(mTokenName + 1, mCurrentToken);
break;
case '"':
String(c, mCurrentToken); // has to be a string
break;
case '\'':
Char(c, mCurrentToken); // has to be a char
break;
default:
if (isalpha(c) || c == '_') {
Identifier(mTokenName + 1, mCurrentToken); // has to be an identifier
}
else if (isdigit(c) || c == '-' || c == '.' || c == '+') {
Number(c, mCurrentToken); // has to be some sort of number
}
else {
// what to do? throw and exception?
//throw ScannerUnknownCharacter("Unknow character");
mCurrentToken->SetToken(ERROR_TOKEN);
}
} // switch
}
else {
mCurrentToken->SetToken(EOF_TOKEN);
}
}
return mCurrentToken;
}
void IdlScanner::SetCurrentToken()
{
if (mCurrentToken) {
if (mCurrentToken == mToken1) {
mCurrentToken = mToken2;
return;
}
}
mCurrentToken = mToken1;
}
//
// Move to the first usable character and return it.
// Keep the line number up to date.
//
int IdlScanner::EatWhiteSpace()
{
int c;
c = mInputFile->get();
while (EOF != c) {
if (isspace(c)) {
// increment line counter
if (c == '\n')
mLineNumber++;
c = mInputFile->get();
}
else {
break;
}
}
return c;
}
//
// 'attribute' is the only keyword starting with 'a'.
// If that is not it, it must be an identifier
//
void IdlScanner::AKeywords(char *aCurrentPos, Token *aToken)
{
int c = mInputFile->get();
if (c != EOF && c == 't' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 't' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'r' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'i' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'b' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'u' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 't' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'e' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(ATTRIBUTE_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(ATTRIBUTE_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// 'boolean' is the only keyword starting with 'b'.
// If that is not it, it must be an identifier
//
void IdlScanner::BKeywords(char *aCurrentPos, Token *aToken)
{
int c = mInputFile->get();
if (c != EOF && c == 'o' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'o' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'l' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'e' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'a' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'n' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(BOOLEAN_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(BOOLEAN_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// It's either 'char' or 'const' if it's a keyword
// otherwise must be an identifier
//
void IdlScanner::CKeywords(char *aCurrentPos, Token *aToken)
{
char *startPos = aCurrentPos;
int c = mInputFile->get();
if (c != EOF && c == 'h' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'a' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'r' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(CHAR_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(CHAR_TOKEN);
}
}
else if (aCurrentPos == startPos &&
c != EOF && c == 'o' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'n' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 's' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 't' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(CONST_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(CONST_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// 'double' and 'DOMString' are the only keyword starting with 'd'.
// If that is not it, it must be an identifier
//
void IdlScanner::DKeywords(char *aCurrentPos, Token *aToken)
{
int c = mInputFile->get();
if (c != EOF && c == 'o' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'u' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'b' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'l' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'e' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(DOUBLE_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(DOUBLE_TOKEN);
}
}
else if (c != EOF && c == 'O' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'M' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'S' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 't' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'r' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'i' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'n' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'g' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(STRING_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(STRING_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// It's either 'enum' or 'exception' if it's a keyword
// otherwise must be an identifier
//
void IdlScanner::EKeywords(char *aCurrentPos, Token *aToken)
{
char *startPos = aCurrentPos;
int c = mInputFile->get();
if (c != EOF && c == 'n' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'u' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'm' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(ENUM_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(ENUM_TOKEN);
}
}
else if (aCurrentPos == startPos &&
c != EOF && c == 'x' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'c' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'e' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'p' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 't' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'i' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'o' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'n' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(EXCEPTION_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(EXCEPTION_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// 'float' is the only keyword starting with 'f'.
// If that is not it, it must be an identifier
//
void IdlScanner::FKeywords(char *aCurrentPos, Token *aToken)
{
int c = mInputFile->get();
if (c != EOF && c == 'l' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'o' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'a' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 't' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(FLOAT_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(FLOAT_TOKEN);
}
}
else if (c != EOF && c == 'u' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'n' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'c' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 't' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'i' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'o' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'n' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(FUNC_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(FUNC_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// One among - 'in' 'inout' 'int' 'interface' - or an identifier
//
void IdlScanner::IKeywords(char *aCurrentPos, Token *aToken)
{
enum {
INITIAL_STATE = 0,
INOUT_O_STATE,
INOUT_U_STATE,
INTERFACE_E_STATE,
INTERFACE_R_STATE,
INTERFACE_F_STATE,
INTERFACE_A_STATE,
INTERFACE_C_STATE,
IN_KEYWORD = 100,
INT_KEYWORD,
INOUT_KEYWORD,
INTERFACE_KEYWORD
};
int state = INITIAL_STATE; // initial state
int c = mInputFile->get();
while (c != EOF && isalpha(c)) {
*aCurrentPos++ = c;
switch (c) {
case 'n':
if (state == INITIAL_STATE) {
state = IN_KEYWORD;
aToken->SetToken(INPUT_PARAM_TOKEN);
}
else {
Identifier(aCurrentPos, aToken);
return;
}
break;
case 't':
if (state == IN_KEYWORD) {
state = INT_KEYWORD;
aToken->SetToken(INT_TOKEN);
}
else if (state == INOUT_U_STATE) {
state = INOUT_KEYWORD;
aToken->SetToken(INOUT_PARAM_TOKEN);
}
else {
Identifier(aCurrentPos, aToken);
return;
}
break;
case 'e':
if (state == INT_KEYWORD) {
state = INTERFACE_E_STATE;
}
else if (state == INTERFACE_C_STATE) {
state = INTERFACE_KEYWORD;
aToken->SetToken(INTERFACE_TOKEN);
}
else {
Identifier(aCurrentPos, aToken);
return;
}
break;
case 'r':
if (state == INTERFACE_E_STATE) {
state = INTERFACE_R_STATE;
}
else {
Identifier(aCurrentPos, aToken);
return;
}
break;
case 'f':
if (state == INTERFACE_R_STATE) {
state = INTERFACE_F_STATE;
}
else {
Identifier(aCurrentPos, aToken);
return;
}
break;
case 'a':
if (state == INTERFACE_F_STATE) {
state = INTERFACE_A_STATE;
}
else {
Identifier(aCurrentPos, aToken);
return;
}
break;
case 'c':
if (state == INTERFACE_A_STATE) {
state = INTERFACE_C_STATE;
}
else {
Identifier(aCurrentPos, aToken);
return;
}
break;
case 'o':
if (state == IN_KEYWORD) {
state = INOUT_O_STATE;
}
else {
Identifier(aCurrentPos, aToken);
return;
}
break;
case 'u':
if (state == IN_KEYWORD) {
state = INOUT_U_STATE;
}
else {
Identifier(aCurrentPos, aToken);
return;
}
break;
default:
Identifier(aCurrentPos, aToken);
return;
}
c = mInputFile->get();
}
if (c == EOF) {
if (state < IN_KEYWORD) {
// end of file, return the identifier
aToken->SetToken(IDENTIFIER_TOKEN, mTokenName);
}
}
// if it is a digit or an underscore the token is
// not terminated yet
else if (isdigit(c) || c == '_') {
Identifier(aCurrentPos, aToken);
}
else {
mInputFile->putback(c);
}
}
//
// 'long' is the only keyword starting with 'l'.
// If that is not it, it must be an identifier
//
void IdlScanner::LKeywords(char *aCurrentPos, Token *aToken)
{
int c = mInputFile->get();
if (c != EOF && c == 'o' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'n' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'g' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(LONG_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(LONG_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// 'out' is the only keyword starting with 'o'.
// If that is not it, it must be an identifier
//
void IdlScanner::OKeywords(char *aCurrentPos, Token *aToken)
{
int c = mInputFile->get();
if (c != EOF && c == 'u' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 't' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(OUTPUT_PARAM_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(OUTPUT_PARAM_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// it's either 'readonly' or 'raises' if it is a keyword.
// Otherwise, it must be an identifier
//
void IdlScanner::RKeywords(char *aCurrentPos, Token *aToken)
{
int c = mInputFile->get();
if (c != EOF && c == 'e' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'a' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'd' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'o' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'n' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'l' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'y' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(READONLY_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(READONLY_TOKEN);
}
}
else if (c != EOF && c == 'a' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'i' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 's' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'e' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 's' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(RAISES_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(RAISES_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// One among - 'short' 'string' 'struct' - or an identifier
//
void IdlScanner::SKeywords(char *aCurrentPos, Token *aToken)
{
char *startPos = aCurrentPos;
int c = mInputFile->get();
// chaeck for 'tr'
if (c != EOF && c == 't' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'r' && (*aCurrentPos++ = c) && (c = mInputFile->get())) {
if (c != EOF && c == 'i' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'n' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'g' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(STRING_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(STRING_TOKEN);
}
}
else if (aCurrentPos == startPos + 2 &&
c != EOF && c == 'u' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'c' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 't' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(STRUCT_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(STRUCT_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
else if (aCurrentPos == startPos &&
c != EOF && c == 'h' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'o' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'r' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 't' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(SHORT_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(SHORT_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// 'typedef' is the only keyword starting with 't'.
// If that is not it, it must be an identifier
//
void IdlScanner::TKeywords(char *aCurrentPos, Token *aToken)
{
int c = mInputFile->get();
if (c != EOF && c == 'y' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'p' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'e' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'd' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'e' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'f' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(TYPEDEF_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(TYPEDEF_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// It's either 'union' or 'unsigned' if it's a keyword
// otherwise must be an identifier
//
void IdlScanner::UKeywords(char *aCurrentPos, Token *aToken)
{
char *startPos = aCurrentPos;
int c = mInputFile->get();
// 'n' must follow
if (c != EOF && c == 'n' && (*aCurrentPos++ = c) && (c = mInputFile->get())) {
if (c != EOF && c == 'i' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'o' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'n' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(UNION_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(UNION_TOKEN);
}
}
else if (aCurrentPos == startPos + 1 &&
c != EOF && c == 's' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'i' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'g' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'n' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'e' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'd' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
// find out what kind of "unsigned type" is
SetCurrentToken(); // this is just to make sure next call uses the same token
NextToken();
if (SHORT_TOKEN == mCurrentToken->id) {
aToken->SetToken(USHORT_TOKEN);
}
else if (INT_TOKEN == mCurrentToken->id) {
aToken->SetToken(UINT_TOKEN);
}
else if (LONG_TOKEN == mCurrentToken->id) {
aToken->SetToken(ULONG_TOKEN);
}
}
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// 'void' is the only keyword starting with 'v'.
// If that is not it, it must be an identifier
//
void IdlScanner::VKeywords(char *aCurrentPos, Token *aToken)
{
int c = mInputFile->get();
if (c != EOF && c == 'o' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'i' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'd' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(VOID_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(VOID_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// 'wstring' is the only keyword starting with 'w'.
// If that is not it, it must be an identifier
//
void IdlScanner::WKeywords(char *aCurrentPos, Token *aToken)
{
int c = mInputFile->get();
if (c != EOF && c == 's' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 't' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'r' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'i' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'n' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'g' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(STRING_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(STRING_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
//
// Either 'xpidl' or an identifier
//
void IdlScanner::XKeywords(char *aCurrentPos, Token *aToken)
{
int c = mInputFile->get();
if (c != EOF && c == 'p' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'i' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'd' && (*aCurrentPos++ = c) && (c = mInputFile->get()) &&
c != EOF && c == 'l' && (*aCurrentPos++ = c)) {
// if terminated is a keyword
c = mInputFile->get();
if (c != EOF) {
if (isalpha(c) || isdigit(c) || c == '_') {
// more characters, it must be an identifier
*aCurrentPos++ = c;
Identifier(aCurrentPos, aToken);
}
else {
// it is a keyword
aToken->SetToken(XPIDL_TOKEN);
mInputFile->putback(c);
}
}
else {
aToken->SetToken(XPIDL_TOKEN);
}
}
else {
// it must be an identifier
KeywordMismatch(c, aCurrentPos, aToken);
}
}
void IdlScanner::Identifier(char *aCurrentPos, Token *aToken)
{
int index = aCurrentPos - mTokenName;
int c = mInputFile->get();
while (isalpha(c) || isdigit(c) || c == '_') {
if (index > 254) {
//XXX throw exception?
}
else {
mTokenName[index++] = c;
}
c = mInputFile->get();
}
if (c != EOF) {
mInputFile->putback(c);
}
aToken->SetToken(IDENTIFIER_TOKEN, mTokenName);
}
void IdlScanner::Number(int aStartChar, Token *aToken)
{
long sign = 1;
long value = 0;
if (aStartChar == '-') {
sign = -1;
aStartChar = mInputFile->get();
}
else if (aStartChar == '.') {
// double. Deal with it later
aStartChar = mInputFile->get();
}
if (isdigit(aStartChar)) {
long base = 10;
if ('0' == aStartChar) {
aStartChar = mInputFile->get();
if (('x' == aStartChar) || ('X' == aStartChar)) {
base = 16;
aStartChar = mInputFile->get();
}
else if (isdigit(aStartChar)) {
base = 8;
}
else {
mInputFile->putback(aStartChar);
aStartChar = '0';
}
}
do {
long digit;
if (isdigit(aStartChar)) {
digit = aStartChar - '0';
}
else if ((aStartChar >= 'a') && (aStartChar <= 'f')) {
digit = 10 + (aStartChar - 'a');
}
else if ((aStartChar >= 'A') && (aStartChar <= 'F')) {
digit = 10 + (aStartChar - 'A');
}
value = value * base + digit;
aStartChar = mInputFile->get();
} while (isdigit(aStartChar) || ((aStartChar >= 'a') && (aStartChar <= 'f')) || ((aStartChar >= 'A') && (aStartChar <= 'F')));
if (aStartChar == '.') {
// double. Deal with it later
}
else {
mInputFile->putback(aStartChar);
}
aToken->SetTokenValue(INTEGER_CONSTANT, value * sign);
}
}
void IdlScanner::String(int aStartChar, Token *aToken)
{
}
void IdlScanner::Char(int aStartChar, Token *aToken)
{
}
#define DEFAULT_COMMENT_SIZE 512
static char *kOptionalStr = "/* optional ";
static char *kEllipsisStr = "/* ... ";
static char *kIIDStr = "/* IID:";
void IdlScanner::Comment(char *aCurrentPos, Token *aToken)
{
int bufferSize = DEFAULT_COMMENT_SIZE;
char *aCommentBuffer = new char[bufferSize];
aCommentBuffer[0] = '/'; // that's why we are here
aCommentBuffer[1] = mInputFile->get();
// c++ comment style
if (aCommentBuffer[1] == '/') {
aCommentBuffer[2] = mInputFile->get();
char *pos = aCommentBuffer + 2; // point to the current char
// untill end of line
while (*pos++ != '\n') {
if (pos - aCommentBuffer == bufferSize) {
// grow the size of the buffer
*pos = '\0';
bufferSize *= 2;
char *newBuffer = new char[bufferSize];
strcpy(newBuffer, aCommentBuffer);
delete[] aCommentBuffer;
aCommentBuffer = newBuffer;
pos = aCommentBuffer + bufferSize / 2;
}
*pos = mInputFile->get();
}
// go back one and terminate the string
*--pos = '\0';
// increment line count
mLineNumber++;
aToken->SetToken(COMMENT_TOKEN, aCommentBuffer);
}
// c comment style
else if (aCommentBuffer[1] == '*') {
aCommentBuffer[2] = mInputFile->get();
aCommentBuffer[3] = mInputFile->get();
char *pos = aCommentBuffer + 3; // point to the current char
// untill end of comment
while (*(pos - 1) != '*' && *pos++ != '/') {
if (pos - aCommentBuffer == bufferSize) {
// grow the size of the buffer
*pos = '\0';
bufferSize *= 2;
char *newBuffer = new char[bufferSize];
strcpy(newBuffer, aCommentBuffer);
delete[] aCommentBuffer;
aCommentBuffer = newBuffer;
pos = aCommentBuffer + bufferSize / 2;
}
*pos = mInputFile->get();
// increment line counter
if (*pos == '\n')
mLineNumber++;
}
// go back one and terminate the string
*--pos = '\0';
if (strcmp(aCommentBuffer, kOptionalStr) == 0) {
aToken->SetToken(OPTIONAL_TOKEN, aCommentBuffer);
}
else if (strcmp(aCommentBuffer, kEllipsisStr) == 0) {
aToken->SetToken(ELLIPSIS_TOKEN, aCommentBuffer);
}
else if (strncmp(aCommentBuffer, kIIDStr, strlen(kIIDStr)) == 0) {
aToken->SetToken(IID_TOKEN, aCommentBuffer + strlen(kIIDStr));
}
else {
aToken->SetToken(COMMENT_TOKEN, aCommentBuffer);
}
}
else {
// don't deal with it for now. It will report an error
}
delete[] aCommentBuffer;
}
void IdlScanner::KeywordMismatch(int aChar, char *aCurrentPos, Token *aToken)
{
if (aChar != EOF) {
// we did not read a keyword, must be an identifier
if (isalpha(aChar) || isdigit(aChar) || aChar == '_') {
// finish reading the identifier
*aCurrentPos++ = aChar;
Identifier(aCurrentPos, aToken);
}
else {
// it's some terminator character, return the identifier
aToken->SetToken(IDENTIFIER_TOKEN, mTokenName);
mInputFile->putback(aChar);
}
}
else {
// end of file, return the identifier
aToken->SetToken(IDENTIFIER_TOKEN, mTokenName);
}
}