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tdebase/tqt3integration/utils/gen.cpp

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31 KiB

/*
* This file is part of the Trinity Desktop Environment
*
* Original file taken from the OpenSUSE tdebase builds
*
* 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.
*/
#include <tqfile.h>
#include <tqstring.h>
#include <tqvaluelist.h>
#include <stdlib.h>
// TODO includes, forwards
/*
FUNCTION <name>
RETURN_TYPE <type>
DELAYED_RETURN - use DCOP transaction in kded module, function will take some time to finish
SKIP_TQT - don't generate in tqt file
ONLY_TQT - generate only in tqt file
ADD_APPINFO - generate wmclass arguments
ARG <name>
TYPE <type>
ORIG_TYPE <type> - for example when the function accepts TQWidget*, but WId is really used
ORIG_CONVERSION <conversion>
IGNORE
NEEDS_DEREF
CONST_REF
OUT_ARGUMENT
CONVERSION <function>
BACK_CONVERSION <function> - for out arguments
CREATE <function> - doesn't exist in TQt, create in tqttde using function
PARENT - the argument is a parent window to be used for windows
ENDARG
ENDFUNCTION
*/
struct Arg
{
Arg() : ignore( false ), needs_deref( false ), const_ref( false ), out_argument( false ), parent( false ) {}
TQString name;
TQString type;
TQString orig_type;
TQString orig_conversion;
bool ignore;
bool needs_deref;
bool const_ref;
bool out_argument;
TQString conversion;
TQString back_conversion;
TQString create;
bool parent;
};
struct Function
{
Function() : delayed_return( false ), skip_tqt( false ), only_tqt( false ), add_appinfo( false ) {}
TQString name;
TQString return_type;
bool delayed_return;
bool skip_tqt;
bool only_tqt;
bool add_appinfo;
TQValueList< Arg > args;
void stripNonOutArguments();
void stripCreatedArguments();
};
void Function::stripNonOutArguments()
{
TQValueList< Arg > new_args;
for( TQValueList< Arg >::ConstIterator it = args.begin();
it != args.end();
++it )
{
const Arg& arg = (*it);
if( arg.out_argument )
new_args.append( arg );
}
args = new_args;
}
void Function::stripCreatedArguments()
{
TQValueList< Arg > new_args;
for( TQValueList< Arg >::ConstIterator it = args.begin();
it != args.end();
++it )
{
const Arg& arg = (*it);
if( arg.create.isEmpty())
new_args.append( arg );
}
args = new_args;
}
TQValueList< Function > functions;
TQFile* input_file = NULL;
TQTextStream* input_stream = NULL;
static TQString last_line;
int last_lineno = 0;
#define check( arg ) my_check( __FILE__, __LINE__, arg )
#define error() my_error( __FILE__, __LINE__ )
void my_error( const char* file, int line )
{
fprintf( stderr, "Error: %s: %d\n", file, line );
fprintf( stderr, "Line %d: %s\n", last_lineno, last_line.utf8().data());
abort();
}
void my_check( const char* file, int line, bool arg )
{
if( !arg )
my_error( file, line );
}
void openInputFile( const TQString& filename )
{
check( input_file == NULL );
input_file = new TQFile( filename );
printf("[INFO] Reading bindings definitions from file %s\n", filename.ascii());
if( !input_file->open( IO_ReadOnly ))
error();
input_stream = new TQTextStream( input_file );
last_lineno = 0;
}
TQString getInputLine()
{
while( !input_stream->atEnd())
{
TQString line = input_stream->readLine().stripWhiteSpace();
++last_lineno;
last_line = line;
if( line.isEmpty() || line[ 0 ] == '#' )
continue;
return line;
}
return TQString();
}
void closeInputFile()
{
delete input_stream;
delete input_file;
input_stream = NULL;
input_file = NULL;
}
void parseArg( Function& function, const TQString& details )
{
Arg arg;
arg.name = details;
TQString line = getInputLine();
while( !line.isNull() )
{
if( line.startsWith( "ENDARG" ))
{
check( !arg.type.isEmpty());
function.args.append( arg );
return;
}
else if( line.startsWith( "TYPE" ))
{
check( arg.type.isEmpty());
arg.type = line.mid( strlen( "TYPE" )).stripWhiteSpace();
}
else if( line.startsWith( "ORIG_TYPE" ))
{
check( arg.orig_type.isEmpty());
arg.orig_type = line.mid( strlen( "ORIG_TYPE" )).stripWhiteSpace();
}
else if( line.startsWith( "ORIG_CONVERSION" ))
{
check( arg.orig_conversion.isEmpty());
arg.orig_conversion = line.mid( strlen( "ORIG_CONVERSION" )).stripWhiteSpace();
}
else if( line.startsWith( "IGNORE" ))
{
check( !arg.out_argument );
arg.ignore = true;
}
else if( line.startsWith( "NEEDS_DEREF" ))
{
check( !arg.const_ref );
arg.needs_deref = true;
}
else if( line.startsWith( "CONST_REF" ))
{
check( !arg.needs_deref );
check( !arg.out_argument );
arg.const_ref = true;
}
else if( line.startsWith( "OUT_ARGUMENT" ))
{
check( !arg.ignore );
check( !arg.const_ref );
arg.out_argument = true;
}
else if( line.startsWith( "CONVERSION" ))
{
check( arg.conversion.isEmpty());
arg.conversion = line.mid( strlen( "CONVERSION" )).stripWhiteSpace();
}
else if( line.startsWith( "BACK_CONVERSION" ))
{
check( arg.back_conversion.isEmpty());
arg.back_conversion = line.mid( strlen( "BACK_CONVERSION" )).stripWhiteSpace();
}
else if( line.startsWith( "CREATE" ))
{
check( arg.create.isEmpty());
arg.create = line.mid( strlen( "CREATE" )).stripWhiteSpace();
}
else if( line.startsWith( "PARENT" ))
{
arg.parent = true;
}
else
error();
line = getInputLine();
}
error();
}
void parseFunction( const TQString& details )
{
Function function;
function.name = details;
TQString line = getInputLine();
while( !line.isNull() )
{
if( line.startsWith( "ENDFUNCTION" ))
{
if( function.add_appinfo )
{
Arg arg;
arg.name = "wmclass1";
arg.type = "TQCString";
arg.const_ref = true;
arg.create = "tqAppName";
function.args.append( arg );
arg.name = "wmclass2";
13 years ago
arg.create = "tqAppClass";
function.args.append( arg );
}
check( !function.return_type.isEmpty());
functions.append( function );
return;
}
else if( line.startsWith( "RETURN_TYPE" ))
{
check( function.return_type.isEmpty());
function.return_type = line.mid( strlen( "RETURN_TYPE" )).stripWhiteSpace();
}
else if( line.startsWith( "DELAYED_RETURN" ))
function.delayed_return = true;
else if( line.startsWith( "SKIP_TQT" ))
function.skip_tqt = true;
else if( line.startsWith( "ONLY_TQT" ))
function.only_tqt = true;
else if( line.startsWith( "ADD_APPINFO" ))
function.add_appinfo = true;
else if( line.startsWith( "ARG" ))
{
parseArg( function, line.mid( strlen( "ARG" )).stripWhiteSpace());
}
else
error();
line = getInputLine();
}
error();
}
void parse(TQString filename)
{
openInputFile( filename );
TQString line = getInputLine();
while( !line.isNull() )
{
if( line.startsWith( "FUNCTION" ))
{
parseFunction( line.mid( strlen( "FUNCTION" )).stripWhiteSpace());
}
else
error();
line = getInputLine();
}
closeInputFile();
}
TQString makeIndent( int indent )
{
return indent > 0 ? TQString().fill( ' ', indent ) : "";
}
void generateFunction( TQTextStream& stream, const Function& function, const TQString name,
int indent, bool staticf, bool orig_type, bool ignore_deref, int ignore_level )
{
TQString line;
line += makeIndent( indent );
if( staticf )
line += "static ";
line += function.return_type + " " + name + "(";
bool need_comma = false;
for( TQValueList< Arg >::ConstIterator it = function.args.begin();
it != function.args.end();
++it )
{
const Arg& arg = (*it);
if( ignore_level >= 2 && arg.ignore )
continue;
if( need_comma )
{
line += ",";
if( line.length() > 80 )
{
stream << line << "\n";
line = makeIndent( indent + 4 );
}
else
line += " ";
}
else
line += " ";
need_comma = true;
if( orig_type && !arg.orig_type.isEmpty())
line += arg.orig_type;
else
{
if( arg.const_ref )
line += "const ";
line += arg.type;
if( !ignore_deref && arg.needs_deref )
line += "*";
if( arg.const_ref )
line += "&";
}
if( ignore_level >= 1 && arg.ignore )
line += " /*" + arg.name + "*/";
else
line += " " + arg.name;
}
line += " )";
stream << line;
}
void generateTQtH()
{
TQFile file( "tqttdeintegration_x11_p.h.gen" );
if( !file.open( IO_WriteOnly ))
error();
TQTextStream stream( &file );
for( TQValueList< Function >::ConstIterator it = functions.begin();
it != functions.end();
++it )
{
Function f = *it;
if( f.skip_tqt )
continue;
f.stripCreatedArguments();
generateFunction( stream, f, f.name, 8,
true /*static*/, true /*orig type*/, false /*ignore deref*/, 0 /*ignore level*/ );
stream << ";\n";
}
}
void generateTQtCpp()
{
TQFile file( "tqttdeintegration_x11.cpp.gen" );
if( !file.open( IO_WriteOnly ))
error();
TQTextStream stream( &file );
for( TQValueList< Function >::ConstIterator it = functions.begin();
it != functions.end();
++it )
{
Function f = *it;
if( f.only_tqt )
continue;
f.stripCreatedArguments();
generateFunction( stream, f, "(*tqttde_" + f.name + ")", 0,
true /*static*/, false /*orig type*/, false /*ignore deref*/, 0 /*ignore level*/ );
stream << ";\n";
}
stream <<
"\n"
"void TQTDEIntegration::initLibrary()\n"
" {\n"
" if( !inited )\n"
" {\n"
" enable = false;\n"
" inited = true;\n"
" TQString libpath = findLibrary();\n"
" if( libpath.isEmpty())\n"
" return;\n"
" TQLibrary lib( libpath );\n"
" if( !TQFile::exists( lib.library())) // avoid stupid TQt warning\n"
" return;\n"
" lib.setAutoUnload( false );\n";
for( TQValueList< Function >::ConstIterator it = functions.begin();
it != functions.end();
++it )
{
Function function = *it;
if( function.only_tqt )
continue;
stream << makeIndent( 8 ) + "tqttde_" + function.name + " = (\n";
function.stripCreatedArguments();
generateFunction( stream, function, "(*)", 12,
false /*static*/, false /*orig type*/, false /*ignore deref*/, 0 /*ignore level*/ );
stream << "\n" + makeIndent( 12 ) + ")\n";
stream << makeIndent( 12 ) + "lib.resolve(\"" + (*it).name + "\");\n";
stream << makeIndent( 8 ) + "if( tqttde_" + (*it).name + " == NULL )\n";
stream << makeIndent( 12 ) + "return;\n";
}
stream <<
" enable = tqttde_initializeIntegration();\n"
" }\n"
" }\n"
"\n";
for( TQValueList< Function >::ConstIterator it1 = functions.begin();
it1 != functions.end();
++it1 )
{
Function function = *it1;
if( function.skip_tqt || function.only_tqt )
continue;
function.stripCreatedArguments();
generateFunction( stream, function, "TQTDEIntegration::" + function.name, 0,
false /*static*/, true /*orig type*/, false /*ignore deref*/, 0 /*ignore level*/ );
stream << "\n";
stream << makeIndent( 4 ) + "{\n";
stream << makeIndent( 4 ) + "return tqttde_" + function.name + "(\n";
stream << makeIndent( 8 );
bool need_comma = false;
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( need_comma )
stream << ", ";
need_comma = true;
if( !arg.orig_conversion.isEmpty())
{
stream << arg.orig_conversion + "( " + arg.name + " )";
}
else
stream << arg.name;
}
stream << " );\n";
stream << makeIndent( 4 ) + "}\n";
}
}
void generateTQt()
{
generateTQtH();
generateTQtCpp();
}
void generateTQtTDE()
{
TQFile file( "tqttde_functions.cpp" );
if( !file.open( IO_WriteOnly ))
error();
TQTextStream stream( &file );
for( TQValueList< Function >::ConstIterator it1 = functions.begin();
it1 != functions.end();
++it1 )
{
const Function& function = *it1;
if( function.only_tqt )
continue;
Function stripped_function = function;
stripped_function.stripCreatedArguments();
stream << "extern \"C\"\n";
generateFunction( stream, stripped_function, stripped_function.name, 0,
false /*static*/, false /*orig type*/, false /*ignore deref*/, 1 /*ignore level*/ );
stream << "\n";
stream <<
" {\n"
" if( tqt_xdisplay() != NULL )\n"
" XSync( tqt_xdisplay(), False );\n";
TQString parent_arg;
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( arg.ignore )
continue;
if( arg.parent )
{
parent_arg = arg.name;
break;
}
}
if( !parent_arg.isEmpty())
{
stream << " if( " << parent_arg << " == 0 )\n";
stream << " DCOPRef( \"kded\", \"MainApplication-Interface\" ).call( \"updateUserTimestamp\", tqt_x_time );\n";
}
stream <<
" TQByteArray data, replyData;\n"
" TQCString replyType;\n";
if( !function.args.isEmpty())
{
stream << " TQDataStream datastream( data, IO_WriteOnly );\n";
stream << " datastream";
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( arg.ignore )
continue;
stream << " << ";
if( !(arg.conversion).isNull() )
stream << arg.conversion + "( ";
if( !arg.create.isEmpty())
stream << arg.create + "()";
else
{
if( arg.needs_deref )
stream << "( " << arg.name << " != NULL ? *" << arg.name << " : " << arg.type << "())";
else
stream << arg.name;
}
if( !(arg.conversion).isNull() )
stream << " )";
}
stream << ";\n";
}
stream << " if( !dcopClient()->call( \"kded\", \"tdeintegration\",\"" + function.name + "(";
bool need_comma = false;
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( arg.ignore )
continue;
if( need_comma )
stream << ",";
need_comma = true;
stream << arg.type;
}
stream << ")\", data, replyType, replyData, true ))\n";
stream << " {\n";
if( function.return_type != "void" )
{
stream << " " + function.return_type << " ret;\n";
stream << " dcopTypeInit( ret ); // set to false/0/whatever\n";
stream << " return ret;\n";
}
else
stream << " return;\n";
stream << " }\n";
bool return_data = false;
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
!return_data && it2 != function.args.end();
++it2 )
{
if( (*it2).out_argument )
return_data = true;
}
if( return_data || function.return_type != "void" )
stream << " TQDataStream replystream( replyData, IO_ReadOnly );\n";
if( function.return_type != "void" )
{
stream << " " + function.return_type << " ret;\n";
stream << " replystream >> ret;\n";
}
if( return_data )
{
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( arg.out_argument && arg.needs_deref )
stream << " " << arg.type << " " << arg.name + "_dummy;\n";
}
stream << " replystream";
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( arg.out_argument )
{
stream << " >> ";
if( !(arg.back_conversion).isNull() )
stream << arg.name + "_dummy";
else
{
if( arg.needs_deref )
stream << "( " << arg.name << " != NULL ? *" << arg.name << " : " << arg.name << "_dummy )";
else
stream << arg.name;
}
}
}
stream << ";\n";
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( arg.out_argument && (!(arg.back_conversion).isNull()) )
stream << " if( " << arg.name << " != NULL )\n"
<< makeIndent( 8 ) << "*" << arg.name << " = " << arg.back_conversion << "( " << arg.name + "_dummy );\n";
}
}
if( function.return_type != "void" )
stream << " return ret;\n";
stream << " }\n";
stream << "\n";
}
}
void genarateTDEDcop( TQTextStream& stream )
{
stream <<
"bool Module::process(const TQCString &fun, const TQByteArray &data,\n"
" TQCString &replyType, TQByteArray &replyData)\n"
" {\n";
for( TQValueList< Function >::ConstIterator it1 = functions.begin();
it1 != functions.end();
++it1 )
{
const Function& function = *it1;
if( function.only_tqt )
continue;
stream << " if( fun == \"" + function.name + "(";
bool need_comma = false;
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( arg.ignore )
continue;
if( need_comma )
stream << ",";
need_comma = true;
stream << arg.type;
}
stream << ")\" )\n";
stream << " {\n";
if( function.delayed_return )
stream << " pre_" + function.name + "( data );\n";
else
{
stream << " pre_" + function.name + "( data, replyData );\n";
stream << " replyType = \"" << function.return_type << "\";\n";
}
stream << " return true;\n";
stream << " }\n";
}
stream <<
" return KDEDModule::process( fun, data, replyType, replyData );\n"
" }\n"
"\n";
stream <<
"QCStringList Module::functions()\n"
" {\n"
" QCStringList funcs = KDEDModule::functions();\n";
for( TQValueList< Function >::ConstIterator it1 = functions.begin();
it1 != functions.end();
++it1 )
{
const Function& function = *it1;
if( function.only_tqt )
continue;
stream << " funcs << \"" + function.name + "(";
bool need_comma = false;
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( arg.ignore )
continue;
if( need_comma )
stream << ",";
need_comma = true;
stream << arg.type;
}
stream << ")\";\n";
}
stream <<
" return funcs;\n"
" }\n"
"\n"
"QCStringList Module::interfaces()\n"
" {\n"
" QCStringList ifaces = KDEDModule::interfaces();\n"
" ifaces << \"TDEIntegration\";\n"
" return ifaces;\n"
" }\n"
"\n";
}
void genarateTDEPreStub( TQTextStream& stream )
{
for( TQValueList< Function >::ConstIterator it1 = functions.begin();
it1 != functions.end();
++it1 )
{
const Function& function = *it1;
if( function.only_tqt )
continue;
stream << "void Module::pre_" + function.name + "( const TQByteArray& "
+ ( function.args.isEmpty() ? "" : "data" )
+ ( function.delayed_return ? "" : ", TQByteArray& replyData" )
+ " )\n";
stream << " {\n";
if( function.delayed_return )
{
stream << " JobData job;\n";
stream << " job.transaction = kapp->dcopClient()->beginTransaction();\n";
stream << " job.type = JobData::" + TQString( function.name[ 0 ].upper()) + function.name.mid( 1 ) + ";\n";
}
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( arg.ignore )
continue;
stream << " " + arg.type + " " + arg.name + ";\n";
}
if( !function.args.isEmpty())
{
stream << " TQDataStream datastream( data, IO_ReadOnly );\n";
stream << " datastream";
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( arg.ignore )
continue;
stream << " >> " + arg.name;
}
stream << ";\n";
}
if( function.delayed_return )
stream << " void* handle = " + function.name + "( ";
else
stream << " post_" + function.name + "( " + function.name + "( ";
bool need_comma = false;
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( arg.ignore )
continue;
if( need_comma )
stream << ", ";
need_comma = true;
stream << arg.name;
}
if( function.delayed_return )
{
stream << " );\n";
stream << " jobs[ handle ] = job;\n";
}
else
stream << " ), replyData );\n";
stream << " }\n";
stream << "\n";
}
}
void genarateTDEPostStub( TQTextStream& stream )
{
for( TQValueList< Function >::ConstIterator it1 = functions.begin();
it1 != functions.end();
++it1 )
{
const Function& function = *it1;
if( function.only_tqt )
continue;
stream << "void Module::post_" + function.name + "( ";
bool needs_comma = false;
if( function.delayed_return )
{
stream << "void* handle";
needs_comma = true;
}
if( function.return_type != "void" )
{
if( needs_comma )
stream << ", ";
needs_comma = true;
stream << function.return_type + " ret";
}
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( arg.out_argument )
{
if( needs_comma )
stream << ", ";
needs_comma = true;
stream << arg.type + " " + arg.name;
}
}
if( !function.delayed_return )
stream << ( needs_comma ? "," : "" ) << " TQByteArray& replyData";
stream << " )\n";
stream << " {\n";
if( function.delayed_return )
{
stream << " assert( jobs.contains( handle ));\n";
stream << " JobData job = jobs[ handle ];\n";
stream << " jobs.remove( handle );\n";
stream << " TQByteArray replyData;\n";
stream << " TQCString replyType = \"tqttde\";\n";
}
bool return_data = false;
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
!return_data && it2 != function.args.end();
++it2 )
{
if( (*it2).out_argument )
return_data = true;
}
if( function.return_type != "void" || return_data )
stream << " TQDataStream replystream( replyData, IO_WriteOnly );\n";
if( function.return_type != "void" )
stream << " replystream << ret;\n";
if( return_data )
{
stream << " replystream";
for( TQValueList< Arg >::ConstIterator it2 = function.args.begin();
it2 != function.args.end();
++it2 )
{
const Arg& arg = (*it2);
if( arg.out_argument )
stream << " << " + arg.name;
}
stream << ";\n";
}
if( function.delayed_return )
stream << " kapp->dcopClient()->endTransaction( job.transaction, replyType, replyData );\n";
stream << " }\n";
stream << "\n";
}
}
void genarateTDEStubs( TQTextStream& stream )
{
genarateTDEPreStub( stream );
genarateTDEPostStub( stream );
// TODO udelat i predbezne deklarace pro skutecne funkce?
}
void genarateTDECpp()
{
TQFile file( "module_functions.cpp" );
if( !file.open( IO_WriteOnly ))
error();
TQTextStream stream( &file );
genarateTDEDcop( stream );
genarateTDEStubs( stream );
}
void genarateTDEH()
{
TQFile file( "module_functions.h" );
if( !file.open( IO_WriteOnly ))
error();
TQTextStream stream( &file );
for( TQValueList< Function >::ConstIterator it1 = functions.begin();
it1 != functions.end();
++it1 )
{
const Function& function = *it1;
if( function.only_tqt )
continue;
Function real_function = function;
if( function.delayed_return )
real_function.return_type = "void*";
generateFunction( stream, real_function, real_function.name, 8,
false /*static*/, false /*orig type*/, true /*ignore deref*/, 2 /*ignore level*/ );
stream << ";\n";
stream << makeIndent( 8 ) + "void pre_" + function.name + "( const TQByteArray& data"
+ ( function.delayed_return ? "" : ", TQByteArray& replyData" ) + " );\n";
Function post_function = function;
post_function.stripNonOutArguments();
if( function.return_type != "void" )
{
Arg return_arg;
return_arg.name = "ret";
return_arg.type = function.return_type;
post_function.args.prepend( return_arg );
}
if( function.delayed_return )
{
Arg handle_arg;
handle_arg.name = "handle";
handle_arg.type = "void*";
post_function.args.prepend( handle_arg );
}
else
{
Arg handle_arg;
handle_arg.name = "replyData";
handle_arg.type = "TQByteArray&";
post_function.args.append( handle_arg );
}
post_function.return_type = "void";
generateFunction( stream, post_function, "post_" + post_function.name, 8,
false /*static*/, false /*orig type*/, true /*ignore deref*/, 2 /*ignore level*/ );
stream << ";\n";
}
}
void genarateTDE()
{
genarateTDECpp();
genarateTDEH();
}
void generate()
{
generateTQt();
generateTQtTDE();
genarateTDE();
}
int main (int argc, char *argv[])
{
if (argc > 1) {
parse(TQString(argv[1]));
}
else {
parse(TQString("gen.txt"));
}
generate();
return 0;
}