reactos/sdk/tools/ms2ps/ms2ps.cpp

432 lines
11 KiB
C++

/*
* ReactOS kernel
* Copyright (C) 2004 ReactOS Team
*
* 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 of the License, 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.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS seh conversion tool
* FILE: tools/ms2ps/ms2ps.cpp
* PURPOSE: Conversion tool from msvc to pseh style seh
* PROGRAMMER: Art Yerkes
*/
#include <iostream>
#include <vector>
#include <list>
#include <set>
#include <map>
#include <deque>
#include <ctype.h>
#define MAYBE(x)
using std::string;
using std::cin;
using std::cout;
using std::cerr;
using std::endl;
using std::istream;
typedef std::list<std::string> sl_t;
typedef sl_t::iterator sl_it;
string TRY_TOKEN = "__try";
string EXCEPT_TOKEN = "__except";
string FINALLY_TOKEN = "__finally";
char *c_operators[] = {
"{",
"}",
"(",
")",
NULL
};
int isident( int c ) {
return (c != '{') && (c != '}') && (c != '(') && (c != ')') &&
(c != '\'') && (c != '\"') && !isspace(c);
}
bool areinclass( string str, int (*isclass)(int) ) {
int i;
for( i = 0; i < (int)str.size(); i++ )
if( !isclass( str[i] ) ) return false;
return true;
}
bool areident( string s ) { return areinclass( s, isident ); }
bool isop( string tok ) {
int i;
for( i = 0; c_operators[i] && tok != c_operators[i]; i++ );
if( c_operators[i] ) return true; else return false;
}
enum fstate { EMPTY, INT, FRAC, EXP };
string generic_match( string tok, string la,
bool (*mf)( string ) ) {
if( tok.size() < 1 ) return "";
if( mf(tok) && !mf(la) ) return tok; else return "";
}
string match_operator( string tok, string la ) {
return generic_match( tok, la, isop );
}
string match_ident( string tok, string la ) {
return generic_match( tok, la, areident );
}
string match_quoted_const( string tok, string la, char q ) {
if( ((tok.size() && tok[0] == q) ||
((tok.size() > 2) && tok[0] == 'L' && tok[1] == q)) &&
(tok.rfind(q) == (tok.size() - 1)) ) {
if( (tok.rfind("\\") != (tok.size() - 2)) ||
(tok.size() > 3 && tok.rfind("\\\\") == (tok.size() - 3)) )
return tok;
else return "";
}
else return "";
}
sl_t snarf_tokens( string line ) {
int i;
sl_t out;
string curtok, la, op, ident, qconst;
line += " ";
for( i = 0; i < (int)line.size() - 1; i++ ) {
/*cout << "Char [" << line[i] << "] and [" << line[i+1] << "]"
<< endl; */
if( (!curtok.size() ||
(curtok[0] != '\'' && curtok[0] != '\"')) &&
(curtok.size() <= 2 ||
curtok[0] != 'L' ||
(curtok[1] != '\'' && curtok[1] != '\"')) &&
isspace(line[i]) ) {
if( curtok.size() ) out.push_back( curtok );
curtok = "";
continue;
}
curtok.push_back( line[i] );
la = curtok + line[i+1];
op = match_operator( curtok, la );
if( op != "" ) {
out.push_back( op MAYBE(+ "O") );
curtok = "";
continue;
}
if( la != "L\"" && la != "L\'" ) {
ident = match_ident( curtok, la );
if( ident != "" ) {
out.push_back( ident MAYBE(+ "I") );
curtok = "";
continue;
}
}
qconst = match_quoted_const( curtok, la, '\'' );
if( qconst != "" ) {
out.push_back( qconst MAYBE(+ "q") );
curtok = "";
continue;
}
qconst = match_quoted_const( curtok, la, '\"' );
if( qconst != "" ) {
out.push_back( qconst MAYBE(+ "Q") );
curtok = "";
continue;
}
}
return out;
}
istream &getline_no_comments( istream &is, string &line ) {
string buf;
int ch;
int seen_slash = false;
while( (ch = is.get()) != -1 ) {
if( seen_slash ) {
if( ch == '/' ) {
do {
ch = is.get();
} while( ch != -1 && ch != '\n' && ch != '\r' );
break;
} else if( ch == '*' ) {
ch = is.get(); /* Skip one char */
do {
while( ch != '*' )
ch = is.get();
ch = is.get();
} while( ch != '/' );
buf += ' ';
} else {
buf += '/'; buf += (char)ch;
}
seen_slash = false;
} else {
if( ch == '/' ) seen_slash = true;
else if( ch == '\r' || ch == '\n' ) break;
else buf += (char)ch;
}
}
line = buf;
return is;
}
bool expand_input( sl_t &tok ) {
string line;
sl_t new_tokens;
bool out = false;
out = getline_no_comments( cin, line );
while( line.size() && isspace( line[0] ) )
line = line.substr( 1 );
if( line[0] == '#' ) {
tok.push_back( line );
while( line[line.size()-1] == '\\' ) {
getline_no_comments( cin, line );
tok.push_back( line );
tok.push_back( "\n" );
}
tok.push_back( "\n" );
} else {
new_tokens = snarf_tokens( line );
tok.splice( tok.end(), new_tokens );
tok.push_back( "\n" );
}
return out;
}
sl_it
complete_block( sl_it i,
sl_it end,
string start_ch,
string end_ch) {
int bc = 1;
for( i++; i != end && bc; i++ ) {
if( *i == start_ch ) bc++;
if( *i == end_ch ) bc--;
}
return i;
}
string makename( string intro ) {
static int i = 0;
char buf[100];
sprintf( buf, "%s%d", intro.c_str(), i++ );
return buf;
}
void append_block( sl_t &t, sl_it b, sl_it e ) {
while( b != e ) {
t.push_back( *b );
b++;
}
}
void error( sl_t &container, sl_it it, string l ) {
int line = 0;
for( sl_it i = container.begin(); i != it; i++ )
if( (*i)[0] == '#' ) {
sscanf( i->substr(1).c_str(), "%d", &line );
cerr << "*standard-input*:" << line << ": " << l;
}
}
/* Goal: match and transform one __try { a } __except [ (foo) ] { b }
* [ __finally { c } ]
*
* into
*
* _SEH_FINALLY(name1) { c }
* _SEH_FILTER(name2) { return (foo | EXCEPTION_EXECUTE_HANDLER); }
* _SEH_TRY_FILTER_FINALLY(name1,name2) {
* a
* } _SEH_HANDLE {
* b
* } _SEH_END;
*/
void handle_try( sl_t &container, sl_it try_kw, sl_it end ) {
string temp;
sl_t pseh_clause, temp_tok;
string finally_name, filter_name;
sl_it try_block, try_block_end, except_kw, paren, end_paren,
except_block, except_block_end, todelete,
finally_kw, finally_block, finally_block_end, clause_end;
try_block = try_kw;
try_block++;
try_block_end = complete_block( try_block, end, "{", "}" );
if( try_block_end == end )
error( container, try_block, "unclosed try block");
except_kw = try_block_end;
if( *except_kw == FINALLY_TOKEN ) {
finally_kw = except_kw;
except_kw = end;
paren = end;
end_paren = end;
except_block = end;
except_block_end = end;
} else if( *except_kw == EXCEPT_TOKEN ) {
paren = except_kw;
paren++;
if( *paren == "(" ) {
end_paren = complete_block( paren, end, "(", ")" );
except_block = end_paren;
} else {
except_block = paren;
paren = end;
end_paren = end;
}
except_block_end = complete_block( except_block, end, "{", "}" );
finally_kw = except_block_end;
} else {
except_kw = paren = end_paren = except_block = except_block_end =
finally_kw = finally_block = finally_block_end = end;
}
if( finally_kw != end && *finally_kw != FINALLY_TOKEN ) {
finally_kw = end;
finally_block = end;
finally_block_end = end;
} else {
finally_block = finally_kw;
finally_block++;
finally_block_end = complete_block( finally_block, end, "{", "}" );
}
if( finally_block_end != end ) clause_end = finally_block_end;
else if( except_block_end != end ) clause_end = except_block_end;
else clause_end = try_block_end;
/* Skip one so that we can do != on clause_end */
/* Now for the output phase -- we've collected the whole seh clause
* and it lies between try_kw and clause_end */
finally_name = makename("_Finally");
filter_name = makename("_Filter");
pseh_clause.push_back( "_SEH_FINALLY" );
pseh_clause.push_back( "(" );
pseh_clause.push_back( finally_name );
pseh_clause.push_back( ")" );
if( finally_kw != end )
append_block( pseh_clause, finally_block, finally_block_end );
else {
pseh_clause.push_back( "{" );
pseh_clause.push_back( "}" );
}
pseh_clause.push_back( "_SEH_FILTER" );
pseh_clause.push_back( "(" );
pseh_clause.push_back( filter_name );
pseh_clause.push_back( ")" );
pseh_clause.push_back( "{" );
pseh_clause.push_back( "return" );
if( paren != end )
append_block( pseh_clause, paren, end_paren );
else
pseh_clause.push_back( "EXCEPTION_EXECUTE_HANDLER" );
pseh_clause.push_back( ";" );
pseh_clause.push_back( "}" );
pseh_clause.push_back( "_SEH_TRY_FILTER_FINALLY" );
pseh_clause.push_back( "(" );
pseh_clause.push_back( filter_name );
pseh_clause.push_back( "," );
pseh_clause.push_back( finally_name );
pseh_clause.push_back( ")" );
append_block( pseh_clause, try_block, try_block_end );
pseh_clause.push_back( "_SEH_HANDLE" );
pseh_clause.push_back( "{" );
if( except_block != end )
append_block( pseh_clause, except_block, except_block_end );
pseh_clause.push_back( "}" );
pseh_clause.push_back( "_SEH_END" );
pseh_clause.push_back( ";" );
container.splice( try_kw, pseh_clause );
while( try_kw != clause_end ) {
todelete = try_kw;
try_kw++;
container.erase( todelete );
}
}
void print_tokens( sl_it begin, sl_it end ) {
for( sl_it i = begin; i != end; i++ )
if( *i == "\n" ) cout << *i;
else cout << /*"[" <<*/ *i << /*"]" <<*/ " ";
}
int main( int argc, char **argv ) {
sl_t tok;
sl_it try_found;
int i;
for( i = 1; i < argc; i++ ) {
if( string(argv[i]) == "-try" && i < argc - 1 ) {
i++;
TRY_TOKEN = argv[i];
} else if( string(argv[i]) == "-except" && i < argc - 1 ) {
i++;
EXCEPT_TOKEN = argv[i];
} else if( string(argv[i]) == "-finally" && i < argc - 1 ) {
i++;
FINALLY_TOKEN = argv[i];
}
}
/* XXX Uses much memory for large files */
while( expand_input(tok) );
while( (try_found = find( tok.begin(), tok.end(), TRY_TOKEN )) !=
tok.end() ) {
handle_try( tok, try_found, tok.end() );
}
tok.push_front("#include <pseh/framebased.h>\n");
print_tokens( tok.begin(), tok.end() );
}