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|
/****************************************************************************
**
** Parser and code generator for meta object compiler
**
** Created : 930417
**
** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved.
**
** This file is part of the TQt GUI Toolkit.
**
** This file may be used under the terms of the GNU General
** Public License versions 2.0 or 3.0 as published by the Free
** Software Foundation and appearing in the files LICENSE.GPL2
** and LICENSE.GPL3 included in the packaging of this file.
** Alternatively you may (at your option) use any later version
** of the GNU General Public License if such license has been
** publicly approved by Trolltech ASA (or its successors, if any)
** and the KDE Free TQt Foundation.
**
** Please review the following information to ensure GNU General
** Public Licensing requirements will be met:
** http://trolltech.com/products/qt/licenses/licensing/opensource/.
** If you are unsure which license is appropriate for your use, please
** review the following information:
** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
** or contact the sales department at sales@trolltech.com.
**
** This file may be used under the terms of the Q Public License as
** defined by Trolltech ASA and appearing in the file LICENSE.TQPL
** included in the packaging of this file. Licensees holding valid TQt
** Commercial licenses may use this file in accordance with the TQt
** Commercial License Agreement provided with the Software.
**
** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
** herein.
**
** --------------------------------------------------------------------------
**
** This compiler reads a C++ header file with class definitions and ouputs
** C++ code to build a meta class. The meta data includes public methods
** (not constructors, destructors or operator functions), signals and slot
** definitions. The output file should be compiled and linked into the
** target application.
**
** C++ header files are assumed to have correct syntax, and we are therefore
** doing less strict checking than C++ compilers.
**
** The C++ grammar has been adopted from the "The Annotated C++ Reference
** Manual" (ARM), by Ellis and Stroustrup (Addison Wesley, 1992).
**
** Notice that this code is not possible to compile with GNU bison, instead
** use standard AT&T yacc or Berkeley yacc.
*****************************************************************************/
%{
#define MOC_YACC_CODE
void yyerror( const char *msg );
#include "qplatformdefs.h"
#include "ntqasciidict.h"
#include "ntqdatetime.h"
#include "ntqdict.h"
#include "ntqfile.h"
#include "ntqdir.h"
#include "ntqptrlist.h"
#include "ntqregexp.h"
#include "ntqstrlist.h"
#ifdef MOC_MWERKS_PLUGIN
# ifdef Q_OS_MACX
# undef OLD_DEBUG
# ifdef DEBUG
# define OLD_DEBUG DEBUG
# undef DEBUG
# endif
# define DEBUG 0
# ifndef __IMAGECAPTURE__
# define __IMAGECAPTURE__
# endif
# include <Carbon/Carbon.h>
# endif
# include "mwerks_mac.h"
#endif
#include <ctype.h>
#include <stdio.h>
#include <stdlib.h>
#if defined CONST
#undef CONST
#endif
#if defined VOID
#undef VOID
#endif
bool isEnumType( const char* type );
int enumIndex( const char* type );
bool isVariantType( const char* type );
int qvariant_nameToType( const char* name );
static void init(); // initialize
static void initClass(); // prepare for new class
static void generateClass(); // generate C++ code for class
static void initExpression(); // prepare for new expression
static void enterNameSpace( const char *name = 0 );
static void leaveNameSpace();
static void selectOutsideClassState();
static void registerClassInNamespace();
static bool suppress_func_warn = FALSE;
static void func_warn( const char *msg );
static void moc_warn( const char *msg );
static void moc_err( const char *s );
static void moc_err( const char *s1, const char *s2 );
static void operatorError();
static void checkPropertyName( const char* ident );
static const char* const utype_map[] =
{
"bool",
"int",
"double",
"TQString",
"TQVariant",
0
};
inline bool isIdentChar( char x )
{ // Avoid bug in isalnum
return x == '_' || (x >= '0' && x <= '9') ||
(x >= 'a' && x <= 'z') || (x >= 'A' && x <= 'Z');
}
bool validUType( TQCString ctype )
{
if ( ctype.left(6) == "const " )
ctype = ctype.mid( 6, ctype.length() - 6 );
if ( ctype.right(1) == "&" )
ctype = ctype.left( ctype.length() - 1 );
else if ( ctype.right(1) == "*" )
return TRUE;
int i = -1;
while ( utype_map[++i] )
if ( ctype == utype_map[i] )
return TRUE;
return isEnumType( ctype );
}
TQCString castToUType( TQCString ctype )
{
if ( ctype.right(1) == "&" )
ctype = ctype.left( ctype.length() - 1 );
if( ctype.right(1) == "]") {
int lb = ctype.findRev('[');
if(lb != -1)
ctype = ctype.left(lb) + "*";
}
return ctype;
}
TQCString rawUType( TQCString ctype )
{
ctype = castToUType( ctype );
if ( ctype.left(6) == "const " )
ctype = ctype.mid( 6, ctype.length() - 6 );
return ctype;
}
TQCString uType( TQCString ctype )
{
if ( !validUType( ctype ) ) {
if ( isVariantType( rawUType(ctype) ) )
return "varptr";
else
return "ptr";
}
if ( ctype.left(6) == "const " )
ctype = ctype.mid( 6, ctype.length() - 6 );
if ( ctype.right(1) == "&" ) {
ctype = ctype.left( ctype.length() - 1 );
} else if ( ctype.right(1) == "*" ) {
TQCString raw = ctype.left( ctype.length() - 1 );
ctype = "ptr";
if ( raw == "char" )
ctype = "charstar";
else if ( raw == "TQUnknownInterface" )
ctype = "iface";
else if ( raw == "TQDispatchInterface" )
ctype = "idisp";
else if ( isVariantType( raw ) )
ctype = "varptr";
}
if ( isEnumType( ctype ) )
ctype = "enum";
return ctype;
}
bool isInOut( TQCString ctype )
{
if ( ctype.left(6) == "const " )
return FALSE;
if ( ctype.right(1) == "&" )
return TRUE;
if ( ctype.right(2) == "**" )
return TRUE;
return FALSE;
}
TQCString uTypeExtra( TQCString ctype )
{
TQCString typeExtra = "0";
if ( !validUType( ctype ) ) {
if ( isVariantType( rawUType(ctype) ) )
typeExtra.sprintf("\"\\x%02x\"", qvariant_nameToType( rawUType(ctype) ) );
else
typeExtra.sprintf( "\"%s\"", rawUType(ctype).data() );
return typeExtra;
}
if ( ctype.left(6) == "const " )
ctype = ctype.mid( 6, ctype.length() - 6 );
if ( ctype.right(1) == "&" )
ctype = ctype.left( ctype.length() - 1 );
if ( ctype.right(1) == "*" ) {
TQCString raw = ctype.left( ctype.length() - 1 );
ctype = "ptr";
if ( raw == "char" )
;
else if ( isVariantType( raw ) )
typeExtra.sprintf("\"\\x%02x\"", qvariant_nameToType( raw ) );
else
typeExtra.sprintf( "\"%s\"", raw.stripWhiteSpace().data() );
} else if ( isEnumType( ctype ) ) {
int idx = enumIndex( ctype );
if ( idx >= 0 ) {
typeExtra.sprintf( "&enum_tbl[%d]", enumIndex( ctype ) );
} else {
typeExtra.sprintf( "parentObject->enumerator(\"%s\", TRUE )", ctype.data() );
}
typeExtra =
"\n#ifndef QT_NO_PROPERTIES\n\t " + typeExtra +
"\n#else"
"\n\t 0"
"\n#endif // QT_NO_PROPERTIES\n\t ";
}
return typeExtra;
}
/*
Attention!
This table is copied from qvariant.cpp. If you change
one, change both.
*/
static const int ntypes = 35;
static const char* const type_map[ntypes] =
{
0,
"TQMap<TQString,TQVariant>",
"TQValueList<TQVariant>",
"TQString",
"TQStringList",
"TQFont",
"TQPixmap",
"TQBrush",
"TQRect",
"TQSize",
"TQColor",
"TQPalette",
"TQColorGroup",
"TQIconSet",
"TQPoint",
"TQImage",
"int",
"uint",
"bool",
"double",
"TQCString",
"TQPointArray",
"TQRegion",
"TQBitmap",
"TQCursor",
"TQSizePolicy",
"TQDate",
"TQTime",
"TQDateTime",
"TQByteArray",
"TQBitArray",
"TQKeySequence",
"TQPen",
"Q_LLONG",
"Q_ULLONG"
};
int qvariant_nameToType( const char* name )
{
for ( int i = 0; i < ntypes; i++ ) {
if ( !qstrcmp( type_map[i], name ) )
return i;
}
return 0;
}
/*
Returns TRUE if the type is a TQVariant types.
*/
bool isVariantType( const char* type )
{
return qvariant_nameToType( type ) != 0;
}
/*
Replaces '>>' with '> >' (as in 'TQValueList<TQValueList<double> >').
This function must be called to produce valid C++ code. However,
the string representation still uses '>>'.
*/
void fixRightAngles( TQCString *str )
{
str->replace( TQRegExp(">>"), "> >" );
}
static TQCString rmWS( const char * );
enum Access { Private, Protected, Public };
class Argument // single arg meta data
{
public:
Argument( const char *left, const char *right, const char* argName = 0, bool isDefaultArgument = FALSE )
{
leftType = rmWS( left );
rightType = rmWS( right );
if ( leftType == "void" && rightType.isEmpty() )
leftType = "";
int len = leftType.length();
/*
Convert 'char const *' into 'const char *'. Start at index 1,
not 0, because 'const char *' is already OK.
*/
for ( int i = 1; i < len; i++ ) {
if ( leftType[i] == 'c' &&
strncmp(leftType.data() + i + 1, "onst", 4) == 0
&& (i + 5 >= len || !isIdentChar(leftType[i + 5]))
&& !isIdentChar(i-1)
) {
leftType.remove( i, 5 );
if ( leftType[i - 1] == ' ' )
leftType.remove( i - 1, 1 );
leftType.prepend( "const " );
break;
}
/*
We musn't convert 'char * const *' into 'const char **'
and we must beware of 'Bar<const Bla>'.
*/
if ( leftType[i] == '&' || leftType[i] == '*' ||
leftType[i] == '<' )
break;
}
name = argName;
isDefault = isDefaultArgument;
}
TQCString leftType;
TQCString rightType;
TQCString name;
bool isDefault;
};
class ArgList : public TQPtrList<Argument> { // member function arg list
public:
ArgList() { setAutoDelete( TRUE ); }
~ArgList() { clear(); }
/* the clone has one default argument less, the orignal has all default arguments removed */
ArgList* magicClone() {
ArgList* l = new ArgList;
bool firstDefault = FALSE;
for ( first(); current(); next() ) {
bool isDefault = current()->isDefault;
if ( !firstDefault && isDefault ) {
isDefault = FALSE;
firstDefault = TRUE;
}
l->append( new Argument( current()->leftType, current()->rightType, current()->name, isDefault ) );
}
for ( first(); current(); ) {
if ( current()->isDefault )
remove();
else
next();
}
return l;
}
bool hasDefaultArguments() {
for ( Argument* a = first(); a; a = next() ) {
if ( a->isDefault )
return TRUE;
}
return FALSE;
}
};
struct Function // member function meta data
{
Access access;
TQCString qualifier; // const or volatile
TQCString name;
TQCString type;
TQCString signature;
int lineNo;
ArgList *args;
Function() { args=0;}
~Function() { delete args; }
const char* accessAsString() {
switch ( access ) {
case Private: return "Private";
case Protected: return "Protected";
default: return "Public";
}
}
};
class FuncList : public TQPtrList<Function> { // list of member functions
public:
FuncList( bool autoDelete = FALSE ) { setAutoDelete( autoDelete ); }
FuncList find( const char* name )
{
FuncList result;
for ( TQPtrListIterator<Function> it(*this); it.current(); ++it ) {
if ( it.current()->name == name )
result.append( it.current() );
}
return result;
}
};
class Enum : public TQStrList
{
public:
TQCString name;
bool set;
};
class EnumList : public TQPtrList<Enum> { // list of property enums
public:
EnumList() { setAutoDelete(TRUE); }
};
struct Property
{
Property( int l, const char* t, const char* n, const char* s, const char* g, const char* r,
const TQCString& st, const TQCString& d, const TQCString& sc, bool ov )
: lineNo(l), type(t), name(n), set(s), get(g), reset(r), setfunc(0), getfunc(0),
sspec(Unspecified), gspec(Unspecified), stored( st ),
designable( d ), scriptable( sc ), override( ov ), oredEnum( -1 )
{
/*
The Q_PROPERTY construct cannot contain any commas, since
commas separate macro arguments. We therefore expect users
to type "TQMap" instead of "TQMap<TQString, TQVariant>". For
coherence, we also expect the same for
TQValueList<TQVariant>, the other template class supported by
TQVariant.
*/
if ( type == "TQMap" ) {
type = "TQMap<TQString,TQVariant>";
} else if ( type == "TQValueList" ) {
type = "TQValueList<TQVariant>";
} else if ( type == "LongLong" ) {
type = "Q_LLONG";
} else if ( type == "ULongLong" ) {
type = "Q_ULLONG";
}
}
int lineNo;
TQCString type;
TQCString name;
TQCString set;
TQCString get;
TQCString reset;
TQCString stored;
TQCString designable;
TQCString scriptable;
bool override;
Function* setfunc;
Function* getfunc;
int oredEnum; // If the enums item may be ored. That means the data type is int.
// Allowed values are 1 (True), 0 (False), and -1 (Unset)
TQCString enumsettype; // contains the set function type in case of oredEnum
TQCString enumgettype; // contains the get function type in case of oredEnum
enum Specification { Unspecified, Class, Reference, Pointer, ConstCharStar };
Specification sspec;
Specification gspec;
bool stdSet() {
TQCString s = "set";
s += toupper( name[0] );
s += name.mid( 1 );
return s == set;
}
static const char* specToString( Specification s )
{
switch ( s ) {
case Class:
return "Class";
case Reference:
return "Reference";
case Pointer:
return "Pointer";
case ConstCharStar:
return "ConstCharStar";
default:
return "Unspecified";
}
}
};
class PropList : public TQPtrList<Property> { // list of properties
public:
PropList() { setAutoDelete( TRUE ); }
};
struct ClassInfo
{
ClassInfo( const char* n, const char* v )
: name(n), value(v)
{}
TQCString name;
TQCString value;
};
class ClassInfoList : public TQPtrList<ClassInfo> { // list of class infos
public:
ClassInfoList() { setAutoDelete( TRUE ); }
};
class parser_reg {
public:
parser_reg();
~parser_reg();
// some temporary values
TQCString tmpExpression; // Used to store the characters the lexer
// is currently skipping (see addExpressionChar and friends)
TQCString fileName; // file name
TQCString outputFile; // output file name
TQCString pchFile; // name of PCH file (used on Windows)
TQStrList includeFiles; // name of #include files
TQCString includePath; // #include file path
TQCString qtPath; // #include qt file path
int gen_count; //number of classes generated
bool noInclude; // no #include <filename>
bool generatedCode; // no code generated
bool mocError; // moc parsing error occurred
bool hasVariantIncluded; //whether or not ntqvariant.h was included yet
TQCString className; // name of parsed class
TQCString superClassName; // name of first super class
TQStrList multipleSuperClasses; // other superclasses
FuncList signals; // signal interface
FuncList slots; // slots interface
FuncList propfuncs; // all possible property access functions
FuncList funcs; // all parsed functions, including signals
EnumList enums; // enums used in properties
PropList props; // list of all properties
ClassInfoList infos; // list of all class infos
// Used to store the values in the Q_PROPERTY macro
TQCString propWrite; // set function
TQCString propRead; // get function
TQCString propReset; // reset function
TQCString propStored; //
TQCString propDesignable; // "true", "false" or function or empty if not specified
TQCString propScriptable; // "true", "false" or function or empty if not specified
bool propOverride; // Wether OVERRIDE was detected
TQStrList qtEnums; // Used to store the contents of Q_ENUMS
TQStrList qtSets; // Used to store the contents of Q_SETS
};
static parser_reg *g = 0;
ArgList *addArg( Argument * ); // add arg to tmpArgList
enum Member { SignalMember,
SlotMember,
PropertyCandidateMember
};
void addMember( Member ); // add tmpFunc to current class
void addEnum(); // add tmpEnum to current class
char *stradd( const char *, const char * ); // add two strings
char *stradd( const char *, const char *, // add three strings
const char * );
char *stradd( const char *, const char *, // adds 4 strings
const char *, const char * );
char *straddSpc( const char *, const char * );
char *straddSpc( const char *, const char *,
const char * );
char *straddSpc( const char *, const char *,
const char *, const char * );
extern int yydebug;
bool lexDebug = FALSE;
int lineNo; // current line number
bool errorControl = FALSE; // controled errors
bool displayWarnings = TRUE;
bool skipClass; // don't generate for class
bool skipFunc; // don't generate for func
bool templateClass; // class is a template
bool templateClassOld; // previous class is a template
ArgList *tmpArgList; // current argument list
Function *tmpFunc; // current member function
Enum *tmpEnum; // current enum
Access tmpAccess; // current access permission
Access subClassPerm; // current access permission
bool Q_OBJECTdetected; // TRUE if current class
// contains the Q_OBJECT macro
bool Q_PROPERTYdetected; // TRUE if current class
// contains at least one Q_PROPERTY,
// Q_OVERRIDE, Q_SETS or Q_ENUMS macro
bool tmpPropOverride; // current property override setting
int tmpYYStart; // Used to store the lexers current mode
int tmpYYStart2; // Used to store the lexers current mode
// (if tmpYYStart is already used)
// if the format revision changes, you MUST change it in ntqmetaobject.h too
const int formatRevision = 26; // moc output format revision
// if the flags change, you HAVE to change it in ntqmetaobject.h too
enum Flags {
Invalid = 0x00000000,
Readable = 0x00000001,
Writable = 0x00000002,
EnumOrSet = 0x00000004,
UnresolvedEnum = 0x00000008,
StdSet = 0x00000100,
Override = 0x00000200,
NotDesignable = 0x00001000,
DesignableOverride = 0x00002000,
NotScriptable = 0x00004000,
ScriptableOverride = 0x00008000,
NotStored = 0x00010000,
StoredOverride = 0x00020000
};
#ifdef YYBISON
# if defined(Q_OS_WIN32)
# include <io.h>
# undef isatty
extern "C" int hack_isatty( int )
{
return 0;
}
# define isatty hack_isatty
# else
# include <unistd.h>
# endif
# define YYDEBUG 1
# include "moc_yacc.h"
# include "moc_lex.cpp"
#endif //YYBISON
%}
%union {
char char_val;
int int_val;
double double_val;
char *string;
Access access;
Function *function;
ArgList *arg_list;
Argument *arg;
}
%start declaration_seq
%token <char_val> CHAR_VAL /* value types */
%token <int_val> INT_VAL
%token <double_val> DOUBLE_VAL
%token <string> STRING
%token <string> IDENTIFIER /* identifier string */
%token FRIEND /* declaration keywords */
%token TYPEDEF
%token AUTO
%token REGISTER
%token STATIC
%token EXTERN
%token INLINE
%token VIRTUAL
%token CONST
%token VOLATILE
%token CHAR
%token SHORT
%token INT
%token LONG
%token SIGNED
%token UNSIGNED
%token FLOAT
%token DOUBLE
%token VOID
%token ENUM
%token CLASS
%token STRUCT
%token UNION
%token ASM
%token PRIVATE
%token PROTECTED
%token PUBLIC
%token OPERATOR
%token DBL_COLON
%token TRIPLE_DOT
%token TEMPLATE
%token NAMESPACE
%token USING
%token MUTABLE
%token THROW
%token SIGNALS
%token SLOTS
%token Q_OBJECT
%token Q_PROPERTY
%token Q_OVERRIDE
%token Q_CLASSINFO
%token Q_ENUMS
%token Q_SETS
%token READ
%token WRITE
%token STORED
%token DESIGNABLE
%token SCRIPTABLE
%token RESET
%type <string> class_name
%type <string> template_class_name
%type <string> template_spec
%type <string> opt_base_spec
%type <string> base_spec
%type <string> base_list
%type <string> qt_macro_name
%type <string> base_specifier
%type <access> access_specifier
%type <string> fct_name
%type <string> type_name
%type <string> simple_type_names
%type <string> simple_type_name
%type <string> class_key
%type <string> complete_class_name
%type <string> qualified_class_name
%type <string> elaborated_type_specifier
%type <string> whatever
%type <arg_list> argument_declaration_list
%type <arg_list> arg_declaration_list
%type <arg_list> arg_declaration_list_opt
%type <string> abstract_decl_opt
%type <string> abstract_decl
%type <arg> argument_declaration
%type <arg> opt_exception_argument
%type <string> cv_qualifier_list_opt
%type <string> cv_qualifier_list
%type <string> cv_qualifier
%type <string> decl_specifiers
%type <string> decl_specifier
%type <string> decl_specs_opt
%type <string> decl_specs
%type <string> type_specifier
%type <string> fct_specifier
%type <string> declarator
%type <string> ptr_operator
%type <string> ptr_operators
%type <string> ptr_operators_opt
%type <string> dname
%%
declaration_seq: /* empty */
| declaration_seq declaration
;
declaration: class_def
/* | template_declaration */
| namespace_def
| namespace_alias_def
| using_declaration
| using_directive
;
namespace_def: named_namespace_def
| unnamed_namespace_def
;
named_namespace_def: NAMESPACE
IDENTIFIER { enterNameSpace($2); }
'{' { BEGIN IN_NAMESPACE; }
namespace_body
'}' { leaveNameSpace();
selectOutsideClassState();
}
;
unnamed_namespace_def: NAMESPACE { enterNameSpace(); }
'{' { BEGIN IN_NAMESPACE; }
namespace_body
'}' { leaveNameSpace();
selectOutsideClassState();
}
;
namespace_body: declaration_seq
;
namespace_alias_def: NAMESPACE IDENTIFIER '=' complete_class_name ';'
{ selectOutsideClassState(); }
;
using_directive: USING NAMESPACE { selectOutsideClassState(); } /* Skip namespace */
;
using_declaration: USING IDENTIFIER { selectOutsideClassState(); }
| USING DBL_COLON { selectOutsideClassState(); }
;
class_def: { initClass(); }
class_specifier ';' { generateClass();
registerClassInNamespace();
selectOutsideClassState(); }
;
/***** r.17.1 (ARM p.387 ): Keywords *****/
class_name: IDENTIFIER { $$ = $1; }
| template_class_name { $$ = $1; }
;
template_class_name: IDENTIFIER '<' template_args '>'
{ g->tmpExpression = rmWS( g->tmpExpression );
$$ = stradd( $1, "<",
g->tmpExpression, ">" ); }
;
/*
template_args skips all characters until it encounters a ">" (it
handles and discards sublevels of parentheses). Since the rule is
empty it must be used with care!
*/
template_args: /* empty */ { initExpression();
templLevel = 1;
BEGIN IN_TEMPL_ARGS; }
;
/***** r.17.2 (ARM p.388): Expressions *****/
/* const_expression skips all characters until it encounters either one
of "]", ")" or "," (it handles and discards sublevels of parentheses).
Since the rule is empty it must be used with care!
*/
const_expression: /* empty */ { initExpression();
BEGIN IN_EXPR; }
;
/* def_argument is just like const expression but handles the ","
slightly differently. It was added for 3.0 as tquick solution. TODO:
merge with const_expression.
*/
def_argument: /* empty */ { BEGIN IN_DEF_ARG; }
;
enumerator_expression: /* empty */ { initExpression();
BEGIN IN_ENUM; }
;
/***** r.17.3 (ARM p.391): Declarations *****/
decl_specifier: storage_class_specifier { $$ = ""; }
| type_specifier { $$ = $1; }
| fct_specifier { $$ = ""; }
| FRIEND { skipFunc = TRUE; $$ = ""; }
| TYPEDEF { skipFunc = TRUE; $$ = ""; }
;
decl_specifiers: decl_specs_opt type_name decl_specs_opt
{ $$ = straddSpc($1,$2,$3); }
;
decl_specs_opt: /* empty */ { $$ = ""; }
| decl_specs { $$ = $1; }
;
decl_specs: decl_specifier { $$ = $1; }
| decl_specs decl_specifier { $$ = straddSpc($1,$2); }
;
storage_class_specifier: AUTO
| REGISTER
| STATIC { skipFunc = TRUE; }
| EXTERN
;
fct_specifier: INLINE { }
| VIRTUAL { }
;
type_specifier: CONST { $$ = "const"; }
| VOLATILE { $$ = "volatile"; }
;
type_name: elaborated_type_specifier { $$ = $1; }
| complete_class_name { $$ = $1; }
| simple_type_names { $$ = $1; }
;
simple_type_names: simple_type_names simple_type_name
{ $$ = straddSpc($1,$2); }
| simple_type_name { $$ = $1; }
;
simple_type_name: CHAR { $$ = "char"; }
| SHORT { $$ = "short"; }
| INT { $$ = "int"; }
| LONG { $$ = "long"; }
| SIGNED { $$ = "signed"; }
| UNSIGNED { $$ = "unsigned"; }
| FLOAT { $$ = "float"; }
| DOUBLE { $$ = "double"; }
| VOID { $$ = "void"; }
;
template_spec: TEMPLATE '<' template_args '>'
{ g->tmpExpression = rmWS( g->tmpExpression );
$$ = stradd( "template<",
g->tmpExpression, ">" ); }
;
opt_template_spec: /* empty */
| template_spec { templateClassOld = templateClass;
templateClass = TRUE;
}
;
class_key: opt_template_spec CLASS { $$ = "class"; }
| opt_template_spec STRUCT { $$ = "struct"; }
;
complete_class_name: qualified_class_name { $$ = $1; }
| DBL_COLON qualified_class_name
{ $$ = stradd( "::", $2 ); }
;
qualified_class_name: qualified_class_name DBL_COLON class_name
{ $$ = stradd( $1, "::", $3 );}
| class_name { $$ = $1; }
;
elaborated_type_specifier:
class_key IDENTIFIER { $$ = straddSpc($1,$2); }
| ENUM IDENTIFIER { $$ = stradd("enum ",$2); }
| UNION IDENTIFIER { $$ = stradd("union ",$2); }
;
/***** r.17.4 (ARM p.393): Declarators *****/
argument_declaration_list: arg_declaration_list_opt triple_dot_opt { $$ = $1;}
| arg_declaration_list ',' TRIPLE_DOT { $$ = $1;
func_warn("Ellipsis not supported"
" in signals and slots.\n"
"Ellipsis argument ignored."); }
;
arg_declaration_list_opt: /* empty */ { $$ = tmpArgList; }
| arg_declaration_list { $$ = $1; }
;
opt_exception_argument: /* empty */ { $$ = 0; }
| argument_declaration
;
triple_dot_opt: /* empty */
| TRIPLE_DOT { func_warn("Ellipsis not supported"
" in signals and slots.\n"
"Ellipsis argument ignored."); }
;
arg_declaration_list: arg_declaration_list
','
argument_declaration { $$ = addArg($3); }
| argument_declaration { $$ = addArg($1); }
;
argument_declaration: decl_specifiers abstract_decl_opt
{ $$ = new Argument(straddSpc($1,$2),""); }
| decl_specifiers abstract_decl_opt
'=' { expLevel = 1; }
def_argument
{ $$ = new Argument(straddSpc($1,$2),"", 0, TRUE ); }
| decl_specifiers abstract_decl_opt dname
abstract_decl_opt
{ $$ = new Argument(straddSpc($1,$2),$4, $3); }
| decl_specifiers abstract_decl_opt dname
abstract_decl_opt
'=' { expLevel = 1; }
def_argument
{ $$ = new Argument(straddSpc($1,$2),$4, $3, TRUE); }
;
abstract_decl_opt: /* empty */ { $$ = ""; }
| abstract_decl { $$ = $1; }
;
abstract_decl: abstract_decl ptr_operator
{ $$ = straddSpc($1,$2); }
| '[' { expLevel = 1; }
const_expression ']'
{ $$ = stradd( "[",
g->tmpExpression =
g->tmpExpression.stripWhiteSpace(), "]" ); }
| abstract_decl '[' { expLevel = 1; }
const_expression ']'
{ $$ = stradd( $1,"[",
g->tmpExpression =
g->tmpExpression.stripWhiteSpace(),"]" ); }
| ptr_operator { $$ = $1; }
| '(' abstract_decl ')' { $$ = $2; }
;
declarator: dname { $$ = ""; }
| declarator ptr_operator
{ $$ = straddSpc($1,$2);}
| declarator '[' { expLevel = 1; }
const_expression ']'
{ $$ = stradd( $1,"[",
g->tmpExpression =
g->tmpExpression.stripWhiteSpace(),"]" ); }
| '(' declarator ')' { $$ = $2; }
;
dname: IDENTIFIER
;
fct_decl: '('
argument_declaration_list
')'
cv_qualifier_list_opt
ctor_initializer_opt
exception_spec_opt
opt_identifier
fct_body_or_semicolon
{ tmpFunc->args = $2;
tmpFunc->qualifier = $4; }
;
fct_name: IDENTIFIER /* NOTE: simplified! */
| IDENTIFIER array_decls
{ func_warn("Variable as signal or slot."); }
| IDENTIFIER '=' { expLevel=0; }
const_expression /* probably const member */
{ skipFunc = TRUE; }
| IDENTIFIER array_decls '=' { expLevel=0; }
const_expression /* probably const member */
{ skipFunc = TRUE; }
;
array_decls: '[' { expLevel = 1; }
const_expression ']'
| array_decls '[' { expLevel = 1; }
const_expression ']'
;
ptr_operators_opt: /* empty */ { $$ = ""; }
| ptr_operators { $$ = $1; }
;
ptr_operators: ptr_operator { $$ = $1; }
| ptr_operators ptr_operator { $$ = straddSpc($1,$2);}
;
ptr_operator: '*' cv_qualifier_list_opt { $$ = straddSpc("*",$2);}
| '&' cv_qualifier_list_opt { $$ = stradd("&",$2);}
/*! | complete_class_name
DBL_COLON
'*'
cv_qualifier_list_opt { $$ = stradd($1,"::*",$4); }*/
;
cv_qualifier_list_opt: /* empty */ { $$ = ""; }
| cv_qualifier_list { $$ = $1; }
;
cv_qualifier_list: cv_qualifier { $$ = $1; }
| cv_qualifier_list cv_qualifier
{ $$ = straddSpc($1,$2); }
;
cv_qualifier: CONST { $$ = "const"; }
| VOLATILE { $$ = "volatile"; }
;
fct_body_or_semicolon: ';'
| fct_body
| '=' INT_VAL ';' /* abstract func, INT_VAL = 0 */
;
fct_body: '{' { BEGIN IN_FCT; fctLevel = 1;}
'}' { BEGIN QT_DEF; }
;
/***** r.17.5 (ARM p.395): Class Declarations *****/
class_specifier: full_class_head
'{' { BEGIN IN_CLASS;
classPLevel = 1;
}
opt_obj_member_list
'}' { BEGIN QT_DEF; } /*catch ';'*/
| class_head { BEGIN QT_DEF; /* -- " -- */
skipClass = TRUE; }
| class_head '*' IDENTIFIER { BEGIN QT_DEF; /* -- " -- */
skipClass = TRUE; }
| class_head '&' IDENTIFIER { BEGIN QT_DEF; /* -- " -- */
skipClass = TRUE; }
| class_head
'(' IDENTIFIER ')' /* TQt macro name */
{ BEGIN QT_DEF; /* catch ';' */
skipClass = TRUE; }
| template_spec whatever { skipClass = TRUE;
BEGIN GIMME_SEMICOLON; }
;
whatever: IDENTIFIER
| simple_type_name
| type_specifier
| storage_class_specifier { $$ = ""; }
| fct_specifier
;
class_head: class_key
qualified_class_name { g->className = $2;
if ( g->className == "TQObject" )
Q_OBJECTdetected = TRUE;
}
| class_key
IDENTIFIER /* possible DLL EXPORT macro */
class_name { g->className = $3;
if ( g->className == "TQObject" )
Q_OBJECTdetected = TRUE;
}
;
full_class_head: class_head
opt_base_spec { g->superClassName = $2; }
;
nested_class_head: class_key
qualified_class_name
opt_base_spec { templateClass = templateClassOld; }
;
exception_spec_opt: /* empty */
| exception_spec
;
/* looser than the real thing */
exception_spec: THROW '(' opt_exception_argument ')'
;
ctor_initializer_opt: /* empty */
| ctor_initializer
;
ctor_initializer: ':' mem_initializer_list
;
mem_initializer_list: mem_initializer
| mem_initializer ',' mem_initializer_list
;
/* complete_class_name also represents IDENTIFIER */
mem_initializer: complete_class_name '(' { expLevel = 1; }
const_expression ')'
;
opt_base_spec: /* empty */ { $$ = 0; }
| base_spec { $$ = $1; }
;
opt_obj_member_list: /* empty */
| obj_member_list
;
obj_member_list: obj_member_list obj_member_area
| obj_member_area
;
qt_access_specifier: access_specifier { tmpAccess = $1; }
| SLOTS { moc_err( "Missing access specifier"
" before \"slots:\"." ); }
;
obj_member_area: qt_access_specifier { BEGIN QT_DEF; }
slot_area
| SIGNALS { BEGIN QT_DEF; }
':' opt_signal_declarations
| Q_OBJECT {
if ( tmpAccess )
moc_warn("Q_OBJECT is not in the private"
" section of the class.\n"
"Q_OBJECT is a macro that resets"
" access permission to \"private\".");
Q_OBJECTdetected = TRUE;
}
| Q_PROPERTY { tmpYYStart = YY_START;
tmpPropOverride = FALSE;
BEGIN IN_PROPERTY; }
'(' property ')' {
BEGIN tmpYYStart;
}
opt_property_candidates
| Q_OVERRIDE { tmpYYStart = YY_START;
tmpPropOverride = TRUE;
BEGIN IN_PROPERTY; }
'(' property ')' {
BEGIN tmpYYStart;
}
opt_property_candidates
| Q_CLASSINFO { tmpYYStart = YY_START; BEGIN IN_CLASSINFO; }
'(' STRING ',' STRING ')'
{
g->infos.append( new ClassInfo( $4, $6 ) );
BEGIN tmpYYStart;
}
opt_property_candidates
| Q_ENUMS { tmpYYStart = YY_START; BEGIN IN_PROPERTY; }
'(' qt_enums ')' {
Q_PROPERTYdetected = TRUE;
BEGIN tmpYYStart;
}
opt_property_candidates
| Q_SETS { tmpYYStart = YY_START; BEGIN IN_PROPERTY; }
'(' qt_sets ')' {
Q_PROPERTYdetected = TRUE;
BEGIN tmpYYStart;
}
opt_property_candidates
;
slot_area: SIGNALS ':' { moc_err( "Signals cannot "
"have access specifiers" ); }
| SLOTS ':' opt_slot_declarations
| ':' { if ( tmpAccess == Public && Q_PROPERTYdetected )
BEGIN QT_DEF;
else
BEGIN IN_CLASS;
suppress_func_warn = TRUE;
}
opt_property_candidates
{
suppress_func_warn = FALSE;
}
| IDENTIFIER { BEGIN IN_CLASS;
if ( classPLevel != 1 )
moc_warn( "unexpected access"
"specifier" );
}
;
opt_property_candidates: /*empty*/
| property_candidate_declarations
;
property_candidate_declarations: property_candidate_declarations property_candidate_declaration
| property_candidate_declaration
;
property_candidate_declaration: signal_or_slot { addMember( PropertyCandidateMember ); }
;
opt_signal_declarations: /* empty */
| signal_declarations
;
signal_declarations: signal_declarations signal_declaration
| signal_declaration
;
signal_declaration: signal_or_slot { addMember( SignalMember ); }
;
opt_slot_declarations: /* empty */
| slot_declarations
;
slot_declarations: slot_declarations slot_declaration
| slot_declaration
;
slot_declaration: signal_or_slot { addMember( SlotMember ); }
;
opt_semicolons: /* empty */
| opt_semicolons ';'
;
base_spec: ':' base_list { $$=$2; }
;
base_list : base_list ',' base_specifier { g->multipleSuperClasses.append( $3 ); }
| base_specifier
;
qt_macro_name: IDENTIFIER '(' IDENTIFIER ')'
{ $$ = stradd( $1, "(", $3, ")" ); }
| IDENTIFIER '(' simple_type_name ')'
{ $$ = stradd( $1, "(", $3, ")" ); }
;
base_specifier: complete_class_name {$$=$1;}
| VIRTUAL access_specifier complete_class_name {$$=$3;}
| VIRTUAL complete_class_name {$$=$2;}
| access_specifier VIRTUAL complete_class_name {$$=$3;}
| access_specifier complete_class_name {$$=$2;}
| qt_macro_name {$$=$1;}
| VIRTUAL access_specifier qt_macro_name {$$=$3;}
| VIRTUAL qt_macro_name {$$=$2;}
| access_specifier VIRTUAL qt_macro_name {$$=$3;}
| access_specifier qt_macro_name {$$=$2;}
;
access_specifier: PRIVATE { $$=Private; }
| PROTECTED { $$=Protected; }
| PUBLIC { $$=Public; }
;
operator_name: decl_specs_opt IDENTIFIER ptr_operators_opt { }
| decl_specs_opt simple_type_name ptr_operators_opt { }
| '+'
| '-'
| '*'
| '/'
| '%'
| '^'
| '&'
| '|'
| '~'
| '!'
| '='
| '<'
| '>'
| '+' '='
| '-' '='
| '*' '='
| '/' '='
| '%' '='
| '^' '='
| '&' '='
| '|' '='
| '~' '='
| '!' '='
| '=' '='
| '<' '='
| '>' '='
| '<' '<'
| '>' '>'
| '<' '<' '='
| '>' '>' '='
| '&' '&'
| '|' '|'
| '+' '+'
| '-' '-'
| ','
| '-' '>' '*'
| '-' '>'
| '(' ')'
| '[' ']'
;
opt_virtual: /* empty */
| VIRTUAL
;
type_and_name: type_name fct_name
{ tmpFunc->type = $1;
tmpFunc->name = $2; }
| fct_name
{ tmpFunc->type = "int";
tmpFunc->name = $1;
if ( tmpFunc->name == g->className )
func_warn( "Constructors cannot be"
" signals or slots.");
}
| opt_virtual '~' fct_name
{ tmpFunc->type = "void";
tmpFunc->name = "~";
tmpFunc->name += $3;
func_warn( "Destructors cannot be"
" signals or slots.");
}
| decl_specs type_name decl_specs_opt
ptr_operators_opt fct_name
{
char *tmp =
straddSpc($1,$2,$3,$4);
tmpFunc->type = rmWS(tmp);
delete [] tmp;
tmpFunc->name = $5; }
| decl_specs type_name /* probably friend decl */
{ skipFunc = TRUE; }
| type_name ptr_operators fct_name
{ tmpFunc->type =
straddSpc($1,$2);
tmpFunc->name = $3; }
| type_name decl_specs ptr_operators_opt
fct_name
{ tmpFunc->type =
straddSpc($1,$2,$3);
tmpFunc->name = $4; }
| type_name OPERATOR operator_name
{ operatorError(); }
| OPERATOR operator_name
{ operatorError(); }
| decl_specs type_name decl_specs_opt
ptr_operators_opt OPERATOR operator_name
{ operatorError(); }
| type_name ptr_operators OPERATOR operator_name
{ operatorError(); }
| type_name decl_specs ptr_operators_opt
OPERATOR operator_name
{ operatorError(); }
;
signal_or_slot: type_and_name fct_decl opt_semicolons
| type_and_name opt_bitfield ';' opt_semicolons
{ func_warn("Unexpected variable declaration."); }
| type_and_name opt_bitfield ','member_declarator_list
';' opt_semicolons
{ func_warn("Unexpected variable declaration."); }
| enum_specifier opt_identifier ';' opt_semicolons
{ func_warn("Unexpected enum declaration."); }
| USING complete_class_name ';' opt_semicolons
{ func_warn("Unexpected using declaration."); }
| USING NAMESPACE complete_class_name ';' opt_semicolons
{ func_warn("Unexpected using declaration."); }
| NAMESPACE IDENTIFIER '{'
{ classPLevel++;
moc_err("Unexpected namespace declaration."); }
| nested_class_head ';' opt_semicolons
{ func_warn("Unexpected class declaration.");}
| nested_class_head
'{' { func_warn("Unexpected class declaration.");
BEGIN IN_FCT; fctLevel=1;
}
'}' { BEGIN QT_DEF; }
';' opt_semicolons
;
member_declarator_list: member_declarator
| member_declarator_list ',' member_declarator
;
member_declarator: declarator { }
| IDENTIFIER ':' { expLevel = 0; }
const_expression
| ':' { expLevel = 0; }
const_expression
;
opt_bitfield: /* empty */
| ':' { expLevel = 0; }
const_expression
;
enum_specifier: ENUM enum_tail
;
/* optional final comma at the end of an enum list. Not really C++ but
some people still use it */
opt_komma: /*empty*/
| ','
;
enum_tail: IDENTIFIER '{' enum_list opt_komma
'}' { BEGIN QT_DEF;
if ( tmpAccess == Public) {
tmpEnum->name = $1;
addEnum();
}
}
| '{' enum_list opt_komma
'}' { tmpEnum->clear();}
;
opt_identifier: /* empty */
| IDENTIFIER { }
;
enum_list: /* empty */
| enumerator
| enum_list ',' enumerator
;
enumerator: IDENTIFIER { if ( tmpAccess == Public) tmpEnum->append( $1 ); }
| IDENTIFIER '=' { enumLevel=0; }
enumerator_expression { if ( tmpAccess == Public) tmpEnum->append( $1 ); }
;
property: IDENTIFIER IDENTIFIER
{
g->propWrite = "";
g->propRead = "";
g->propOverride = tmpPropOverride;
g->propReset = "";
if ( g->propOverride ) {
g->propStored = "";
g->propDesignable = "";
g->propScriptable = "";
} else {
g->propStored = "true";
g->propDesignable = "true";
g->propScriptable = "true";
}
}
prop_statements
{
if ( g->propRead.isEmpty() && !g->propOverride )
moc_err( "A property must at least feature a read method." );
checkPropertyName( $2 );
Q_PROPERTYdetected = TRUE;
// Avoid duplicates
for( TQPtrListIterator<Property> lit( g->props ); lit.current(); ++lit ) {
if ( lit.current()->name == $2 ) {
if ( displayWarnings )
moc_err( "Property '%s' defined twice.",
(const char*)lit.current()->name );
}
}
g->props.append( new Property( lineNo, $1, $2,
g->propWrite, g->propRead, g->propReset,
g->propStored, g->propDesignable,
g->propScriptable, g->propOverride ) );
}
;
prop_statements: /* empty */
| READ IDENTIFIER prop_statements { g->propRead = $2; }
| WRITE IDENTIFIER prop_statements { g->propWrite = $2; }
| RESET IDENTIFIER prop_statements { g->propReset = $2; }
| STORED IDENTIFIER prop_statements { g->propStored = $2; }
| DESIGNABLE IDENTIFIER prop_statements { g->propDesignable = $2; }
| SCRIPTABLE IDENTIFIER prop_statements { g->propScriptable = $2; }
;
qt_enums: /* empty */ { }
| IDENTIFIER qt_enums { g->qtEnums.append( $1 ); }
;
qt_sets: /* empty */ { }
| IDENTIFIER qt_sets { g->qtSets.append( $1 ); }
;
%%
#ifndef YYBISON
# if defined(Q_OS_WIN32)
# include <io.h>
# undef isatty
extern "C" int hack_isatty( int )
{
return 0;
}
# define isatty hack_isatty
# else
# include <unistd.h>
# endif
# include "moc_lex.cpp"
#endif //YYBISON
void cleanup();
TQCString combinePath( const char *, const char * );
FILE *out; // output file
parser_reg::parser_reg() : funcs(TRUE)
{
gen_count = 0;
noInclude = FALSE; // no #include <filename>
generatedCode = FALSE; // no code generated
mocError = FALSE; // moc parsing error occurred
hasVariantIncluded = FALSE;
}
parser_reg::~parser_reg()
{
slots.clear();
signals.clear();
propfuncs.clear();
funcs.clear();
infos.clear();
props.clear();
infos.clear();
}
int yyparse();
void replace( char *s, char c1, char c2 );
void setDefaultIncludeFile()
{
if ( g->includeFiles.isEmpty() ) {
if ( g->includePath.isEmpty() ) {
if ( !g->fileName.isEmpty() && !g->outputFile.isEmpty() ) {
g->includeFiles.append( combinePath(g->fileName, g->outputFile) );
} else {
g->includeFiles.append( g->fileName );
}
} else {
g->includeFiles.append( combinePath(g->fileName, g->fileName) );
}
}
}
#ifdef Q_CC_MSVC
#define ErrorFormatString "%s(%d):"
#else
#define ErrorFormatString "%s:%d:"
#endif
#ifndef MOC_MWERKS_PLUGIN
int main( int argc, char **argv )
{
init();
bool autoInclude = TRUE;
const char *error = 0;
g->qtPath = "";
for ( int n=1; n<argc && error==0; n++ ) {
TQCString arg = argv[n];
if ( arg[0] == '-' ) { // option
TQCString opt = &arg[1];
if ( opt[0] == 'o' ) { // output redirection
if ( opt[1] == '\0' ) {
if ( !(n < argc-1) ) {
error = "Missing output file name";
break;
}
g->outputFile = argv[++n];
} else
g->outputFile = &opt[1];
} else if ( opt == "i" ) { // no #include statement
g->noInclude = TRUE;
autoInclude = FALSE;
} else if ( opt[0] == 'f' ) { // produce #include statement
g->noInclude = FALSE;
autoInclude = FALSE;
if ( opt[1] ) // -fsomething.h
g->includeFiles.append( &opt[1] );
} else if ( opt == "pch" ) { // produce #include statement for PCH
if ( !(n < argc-1) ) {
error = "Missing name of PCH file";
break;
}
g->pchFile = argv[++n];
} else if ( opt[0] == 'p' ) { // include file path
if ( opt[1] == '\0' ) {
if ( !(n < argc-1) ) {
error = "Missing path name for the -p option.";
break;
}
g->includePath = argv[++n];
} else {
g->includePath = &opt[1];
}
} else if ( opt[0] == 'q' ) { // qt include file path
if ( opt[1] == '\0' ) {
if ( !(n < argc-1) ) {
error = "Missing path name for the -q option.";
break;
}
g->qtPath = argv[++n];
} else {
g->qtPath = &opt[1];
}
replace(g->qtPath.data(),'\\','/');
if ( g->qtPath.right(1) != "/" )
g->qtPath += '/';
} else if ( opt == "v" ) { // version number
fprintf( stderr, "TQt Meta Object Compiler version %d"
" (TQt %s)\n", formatRevision,
QT_VERSION_STR );
cleanup();
return 1;
} else if ( opt == "k" ) { // stop on errors
errorControl = TRUE;
} else if ( opt == "nw" ) { // don't display warnings
displayWarnings = FALSE;
} else if ( opt == "ldbg" ) { // lex debug output
lexDebug = TRUE;
} else if ( opt == "ydbg" ) { // yacc debug output
yydebug = TRUE;
} else {
error = "Invalid argument";
}
} else {
if ( !g->fileName.isNull() ) // can handle only one file
error = "Too many input files specified";
else
g->fileName = arg.copy();
}
}
if ( autoInclude ) {
int ppos = g->fileName.findRev('.');
if ( ppos != -1 && tolower( g->fileName[ppos + 1] ) == 'h' )
g->noInclude = FALSE;
else
g->noInclude = TRUE;
}
setDefaultIncludeFile();
if ( g->fileName.isNull() && !error ) {
g->fileName = "standard input";
yyin = stdin;
} else if ( argc < 2 || error ) { // incomplete/wrong args
fprintf( stderr, "TQt meta object compiler\n" );
if ( error )
fprintf( stderr, "moc: %s\n", error );
fprintf( stderr, "Usage: moc [options] <header-file>\n"
"\t-o file Write output to file rather than stdout\n"
"\t-f[file] Force #include, optional file name\n"
"\t-p path Path prefix for included file\n"
"\t-i Do not generate an #include statement\n"
"\t-k Do not stop on errors\n"
"\t-nw Do not display warnings\n"
"\t-v Display version of moc\n" );
cleanup();
return 1;
} else {
yyin = fopen( (const char *)g->fileName, "r" );
if ( !yyin ) {
fprintf( stderr, "moc: %s: No such file\n", (const char*)g->fileName);
cleanup();
return 1;
}
}
if ( !g->outputFile.isEmpty() ) { // output file specified
out = fopen( (const char *)g->outputFile, "w" ); // create output file
if ( !out ) {
fprintf( stderr, "moc: Cannot create %s\n",
(const char*)g->outputFile );
cleanup();
return 1;
}
} else { // use stdout
out = stdout;
}
yyparse();
fclose( yyin );
if ( !g->outputFile.isNull() )
fclose( out );
if ( !g->generatedCode && displayWarnings && !g->mocError ) {
fprintf( stderr, ErrorFormatString" Warning: %s\n", g->fileName.data(), 0,
"No relevant classes found. No output generated." );
}
int ret = g->mocError ? 1 : 0;
cleanup();
return ret;
}
#else
bool qt_is_gui_used = FALSE;
#include <ctype.h>
#include <stdio.h>
#include <string.h>
#ifdef Q_OS_MAC9
# include <Files.h>
# include <Strings.h>
# include <Errors.h>
# include "Aliases.h"
#endif
#include "CWPluginErrors.h"
#include <CWPlugins.h>
#include "DropInCompilerLinker.h"
#include <stat.h>
const unsigned char *p_str(const char *, int =-1);
CWPluginContext g_ctx;
moc_status do_moc( CWPluginContext ctx, const TQCString &fin, const TQCString &fout, CWFileSpec *dspec, bool i)
{
init();
g_ctx = ctx;
g->noInclude = i;
g->fileName = fin;
g->outputFile = fout;
setDefaultIncludeFile();
CWFileInfo fi;
memset(&fi, 0, sizeof(fi));
fi.fullsearch = TRUE;
fi.dependencyType = cwNormalDependency;
fi.isdependentoffile = kCurrentCompiledFile;
if(CWFindAndLoadFile( ctx, fin.data(), &fi) != cwNoErr) {
cleanup();
return moc_no_source;
}
if(dspec) {
memcpy(dspec, &fi.filespec, sizeof(fi.filespec));
const unsigned char *f = p_str(fout.data());
memcpy(dspec->name, f, f[0]+1);
free(f);
}
buf_size_total = fi.filedatalength;
buf_buffer = fi.filedata;
TQCString path("");
AliasHandle alias;
Str63 str;
AliasInfoType x = 1;
char tmp[sizeof(Str63)+2];
if(NewAlias( NULL, &fi.filespec, &alias) != noErr) {
cleanup();
return moc_general_error;
}
for(;;) {
GetAliasInfo(alias, x++, str);
if(!str[0])
break;
strncpy((char *)tmp, (const char *)str+1, str[0]);
tmp[str[0]] = '\0';
path.prepend(":");
path.prepend((char *)tmp);
}
path.prepend("MacOS 9:"); //FIXME
TQString inpath = path + fin, outpath = path + fout;
struct stat istat, ostat;
if(stat(inpath, &istat) == -1) {
cleanup();
return moc_no_source;
}
if(stat(outpath, &ostat) == 0 && istat.st_mtime < ostat.st_mtime) {
cleanup();
return moc_not_time;
}
unlink(outpath.data());
out = fopen(outpath.data(), "w+");
if(!out) {
cleanup();
return moc_general_error;
}
yyparse();
if(out != stdout)
fclose(out);
if(g->mocError || !g->generatedCode) {
unlink(outpath.data());
moc_status ret = !g->generatedCode ? moc_no_qobject : moc_parse_error;
cleanup();
return ret;
}
cleanup();
return moc_success;
}
#endif
void replace( char *s, char c1, char c2 )
{
if ( !s )
return;
while ( *s ) {
if ( *s == c1 )
*s = c2;
s++;
}
}
/*
This function looks at two file names and returns the name of the
infile with a path relative to outfile.
Examples:
/tmp/abc, /tmp/bcd -> abc
xyz/a/bc, xyz/b/ac -> ../a/bc
/tmp/abc, xyz/klm -> /tmp/abc
*/
TQCString combinePath( const char *infile, const char *outfile )
{
TQFileInfo inFileInfo( TQDir::current(), TQFile::decodeName(infile) );
TQFileInfo outFileInfo( TQDir::current(), TQFile::decodeName(outfile) );
int numCommonComponents = 0;
TQStringList inSplitted =
TQStringList::split( '/', inFileInfo.dir().canonicalPath(), TRUE );
TQStringList outSplitted =
TQStringList::split( '/', outFileInfo.dir().canonicalPath(), TRUE );
while ( !inSplitted.isEmpty() && !outSplitted.isEmpty() &&
inSplitted.first() == outSplitted.first() ) {
inSplitted.remove( inSplitted.begin() );
outSplitted.remove( outSplitted.begin() );
numCommonComponents++;
}
if ( numCommonComponents < 2 ) {
/*
The paths don't have the same drive, or they don't have the
same root directory. Use an absolute path.
*/
return TQFile::encodeName( inFileInfo.absFilePath() );
} else {
/*
The paths have something in common. Use a path relative to
the output file.
*/
while ( !outSplitted.isEmpty() ) {
outSplitted.remove( outSplitted.begin() );
inSplitted.prepend( ".." );
}
inSplitted.append( inFileInfo.fileName() );
return TQFile::encodeName( inSplitted.join("/") );
}
}
#define getenv hack_getenv // workaround for byacc
char *getenv() { return 0; }
char *getenv( const char * ) { return 0; }
void init() // initialize
{
BEGIN OUTSIDE;
if(g)
delete g;
g = new parser_reg;
lineNo = 1;
skipClass = FALSE;
skipFunc = FALSE;
tmpArgList = new ArgList;
tmpFunc = new Function;
tmpEnum = new Enum;
#ifdef MOC_MWERKS_PLUGIN
buf_buffer = NULL;
buf_index = 0;
buf_size_total = 0;
#endif
}
void cleanup()
{
delete g;
g = NULL;
#ifdef MOC_MWERKS_PLUGIN
if(buf_buffer && g_ctx)
CWReleaseFileText(g_ctx, buf_buffer);
#endif
}
void initClass() // prepare for new class
{
tmpAccess = Private;
subClassPerm = Private;
Q_OBJECTdetected = FALSE;
Q_PROPERTYdetected = FALSE;
skipClass = FALSE;
templateClass = FALSE;
g->slots.clear();
g->signals.clear();
g->propfuncs.clear();
g->enums.clear();
g->funcs.clear();
g->props.clear();
g->infos.clear();
g->qtSets.clear();
g->qtEnums.clear();
g->multipleSuperClasses.clear();
}
struct NamespaceInfo
{
TQCString name;
int pLevelOnEntering; // Parenthesis level on entering the namespace
TQDict<char> definedClasses; // Classes defined in the namespace
};
TQPtrList<NamespaceInfo> namespaces;
void enterNameSpace( const char *name ) // prepare for new class
{
static bool first = TRUE;
if ( first ) {
namespaces.setAutoDelete( TRUE );
first = FALSE;
}
NamespaceInfo *tmp = new NamespaceInfo;
if ( name )
tmp->name = name;
tmp->pLevelOnEntering = namespacePLevel;
namespaces.append( tmp );
}
void leaveNameSpace() // prepare for new class
{
NamespaceInfo *tmp = namespaces.last();
namespacePLevel = tmp->pLevelOnEntering;
namespaces.remove();
}
TQCString nameQualifier()
{
TQPtrListIterator<NamespaceInfo> iter( namespaces );
NamespaceInfo *tmp;
TQCString qualifier = "";
for( ; (tmp = iter.current()) ; ++iter ) {
if ( !tmp->name.isNull() ) { // If not unnamed namespace
qualifier += tmp->name;
qualifier += "::";
}
}
return qualifier;
}
int openNameSpaceForMetaObject( FILE *out )
{
int levels = 0;
TQPtrListIterator<NamespaceInfo> iter( namespaces );
NamespaceInfo *tmp;
TQCString indent = "";
for( ; (tmp = iter.current()) ; ++iter ) {
if ( !tmp->name.isNull() ) { // If not unnamed namespace
fprintf( out, "%snamespace %s {\n", (const char *)indent,
(const char *) tmp->name );
indent += " ";
levels++;
}
}
TQCString nm = g->className;
int pos;
while( (pos = nm.find( "::" )) != -1 ) {
TQCString spaceName = nm.left( pos );
nm = nm.right( nm.length() - pos - 2 );
if ( !spaceName.isEmpty() ) {
fprintf( out, "%snamespace %s {\n", (const char *)indent,
(const char *) spaceName );
indent += " ";
levels++;
}
}
return levels;
}
void closeNameSpaceForMetaObject( FILE *out, int levels )
{
int i;
for( i = 0 ; i < levels ; i++ )
fprintf( out, "}" );
if ( levels )
fprintf( out, "\n" );
}
void selectOutsideClassState()
{
if ( namespaces.count() == 0 )
BEGIN OUTSIDE;
else
BEGIN IN_NAMESPACE;
}
void registerClassInNamespace()
{
if ( namespaces.count() == 0 )
return;
namespaces.last()->definedClasses.insert((const char *)g->className,(char*)1);
}
//
// Remove white space from SIGNAL and SLOT names.
// This function has been copied from qobject.cpp.
//
inline bool isSpace( char x )
{
#if defined(Q_CC_BOR)
/*
Borland C++ 4.5 has a weird isspace() bug.
isspace() usually works, but not here.
This implementation is sufficient for our internal use: rmWS()
*/
return (uchar) x <= 32;
#else
return isspace( (uchar) x );
#endif
}
static TQCString rmWS( const char *src )
{
TQCString result( qstrlen(src)+1 );
char *d = result.data();
char *s = (char *)src;
char last = 0;
while( *s && isSpace(*s) ) // skip leading space
s++;
while ( *s ) {
while ( *s && !isSpace(*s) )
last = *d++ = *s++;
while ( *s && isSpace(*s) )
s++;
if ( *s && isIdentChar(*s) && isIdentChar(last) )
last = *d++ = ' ';
}
result.truncate( (int)(d - result.data()) );
return result;
}
void initExpression()
{
g->tmpExpression = "";
}
void addExpressionString( const char *s )
{
g->tmpExpression += s;
}
void addExpressionChar( const char c )
{
g->tmpExpression += c;
}
void yyerror( const char *msg ) // print yacc error message
{
g->mocError = TRUE;
#ifndef MOC_MWERKS_PLUGIN
fprintf( stderr, ErrorFormatString" Error: %s\n", g->fileName.data(), lineNo, msg );
#else
char msg2[200];
sprintf(msg2, ErrorFormatString" Error: %s", g->fileName.data(), lineNo, msg);
CWReportMessage(g_ctx, NULL, msg2, NULL, messagetypeError, 0);
#endif
if ( errorControl ) {
if ( !g->outputFile.isEmpty() && yyin && fclose(yyin) == 0 )
remove( g->outputFile );
exit( -1 );
}
}
void moc_err( const char *s )
{
yyerror( s );
}
void moc_err( const char *s1, const char *s2 )
{
static char tmp[1024];
sprintf( tmp, s1, s2 );
yyerror( tmp );
}
void moc_warn( const char *msg )
{
if ( displayWarnings )
fprintf( stderr, ErrorFormatString" Warning: %s\n", g->fileName.data(), lineNo, msg);
}
void moc_warn( char *s1, char *s2 )
{
static char tmp[1024];
sprintf( tmp, s1, s2 );
if ( displayWarnings )
fprintf( stderr, ErrorFormatString" Warning: %s\n", g->fileName.data(), lineNo, tmp);
}
void func_warn( const char *msg )
{
if ( !suppress_func_warn )
moc_warn( msg );
skipFunc = TRUE;
}
void operatorError()
{
if ( !suppress_func_warn )
moc_warn("Operator functions cannot be signals or slots.");
skipFunc = TRUE;
}
#ifndef yywrap
int yywrap() // more files?
{
return 1; // end of file
}
#endif
char *stradd( const char *s1, const char *s2 ) // adds two strings
{
char *n = new char[qstrlen(s1)+qstrlen(s2)+1];
qstrcpy( n, s1 );
strcat( n, s2 );
return n;
}
char *stradd( const char *s1, const char *s2, const char *s3 )// adds 3 strings
{
char *n = new char[qstrlen(s1)+qstrlen(s2)+qstrlen(s3)+1];
qstrcpy( n, s1 );
strcat( n, s2 );
strcat( n, s3 );
return n;
}
char *stradd( const char *s1, const char *s2,
const char *s3, const char *s4 )// adds 4 strings
{
char *n = new char[qstrlen(s1)+qstrlen(s2)+qstrlen(s3)+qstrlen(s4)+1];
qstrcpy( n, s1 );
strcat( n, s2 );
strcat( n, s3 );
strcat( n, s4 );
return n;
}
char *straddSpc( const char *s1, const char *s2 )
{
char *n = new char[qstrlen(s1)+qstrlen(s2)+2];
qstrcpy( n, s1 );
strcat( n, " " );
strcat( n, s2 );
return n;
}
char *straddSpc( const char *s1, const char *s2, const char *s3 )
{
char *n = new char[qstrlen(s1)+qstrlen(s2)+qstrlen(s3)+3];
qstrcpy( n, s1 );
strcat( n, " " );
strcat( n, s2 );
strcat( n, " " );
strcat( n, s3 );
return n;
}
char *straddSpc( const char *s1, const char *s2,
const char *s3, const char *s4 )
{
char *n = new char[qstrlen(s1)+qstrlen(s2)+qstrlen(s3)+qstrlen(s4)+4];
qstrcpy( n, s1 );
strcat( n, " " );
strcat( n, s2 );
strcat( n, " " );
strcat( n, s3 );
strcat( n, " " );
strcat( n, s4 );
return n;
}
// Generate C++ code for building member function table
/*
We call B::qt_invoke() rather than A::B::qt_invoke() to
work around a bug in MSVC 6. The bug occurs if the
super-class is in a namespace and the sub-class isn't.
Exception: If the superclass has the same name as the subclass, we
want non-MSVC users to have a working generated files.
*/
TQCString purestSuperClassName()
{
TQCString sc = g->superClassName;
TQCString c = g->className;
/*
Make sure qualified template arguments (e.g., foo<bar::baz>)
don't interfere.
*/
int pos = sc.findRev( "::", sc.find( '<' ) );
if ( pos != -1 ) {
sc = sc.right( sc.length() - pos - 2 );
pos = c.findRev( "::" );
if ( pos != -1 )
c = c.right( c.length() - pos - 2 );
if ( sc == c )
sc = g->superClassName;
}
return sc;
}
TQCString qualifiedClassName()
{
return nameQualifier() + g->className;
}
const int Slot_Num = 1;
const int Signal_Num = 2;
const int Prop_Num = 3;
void generateFuncs( FuncList *list, const char *functype, int num )
{
Function *f;
for ( f=list->first(); f; f=list->next() ) {
bool hasReturnValue = f->type != "void" && (validUType( f->type ) || isVariantType( f->type) );
if ( hasReturnValue || !f->args->isEmpty() ) {
fprintf( out, " static const TQUParameter param_%s_%d[] = {\n", functype, list->at() );
if ( hasReturnValue ) {
if ( validUType( f->type ) )
fprintf( out, "\t{ 0, &static_QUType_%s, %s, TQUParameter::Out }", uType(f->type).data(), uTypeExtra(f->type).data() );
else
fprintf( out, "\t{ 0, &static_QUType_TQVariant, %s, TQUParameter::Out }", uTypeExtra(f->type).data() );
if ( !f->args->isEmpty() )
fprintf( out, ",\n" );
}
Argument* a = f->args->first();
while ( a ) {
TQCString type = a->leftType + ' ' + a->rightType;
type = type.simplifyWhiteSpace();
if( a->name.isEmpty() )
fprintf( out, "\t{ 0, &static_QUType_%s, %s, TQUParameter::%s }",
uType( type ).data(), uTypeExtra( type ).data(),
isInOut( type ) ? "InOut" : "In" );
else
fprintf( out, "\t{ \"%s\", &static_QUType_%s, %s, TQUParameter::%s }",
a->name.data(), uType( type ).data(), uTypeExtra( type ).data(),
isInOut( type ) ? "InOut" : "In" );
a = f->args->next();
if ( a )
fprintf( out, ",\n" );
}
fprintf( out, "\n };\n");
}
fprintf( out, " static const TQUMethod %s_%d = {", functype, list->at() );
int n = f->args->count();
if ( hasReturnValue )
n++;
fprintf( out, "\"%s\", %d,", f->name.data(), n );
if ( n )
fprintf( out, " param_%s_%d };\n", functype, list->at() );
else
fprintf( out, " 0 };\n" );
TQCString typstr = "";
int count = 0;
Argument *a = f->args->first();
while ( a ) {
if ( !a->leftType.isEmpty() || ! a->rightType.isEmpty() ) {
if ( count++ )
typstr += ",";
typstr += a->leftType;
typstr += a->rightType;
}
a = f->args->next();
}
f->signature = f->name;
f->signature += "(";
f->signature += typstr;
f->signature += ")";
}
if ( list->count() ) {
fprintf(out," static const TQMetaData %s_tbl[] = {\n", functype );
f = list->first();
while ( f ) {
fprintf( out, "\t{ \"%s\",", f->signature.data() );
fprintf( out, " &%s_%d,", functype, list->at() );
fprintf( out, " TQMetaData::%s }", f->accessAsString() );
f = list->next();
if ( f )
fprintf( out, ",\n");
}
fprintf( out, "\n };\n" );
}
}
int enumIndex( const char* type )
{
int index = 0;
for( TQPtrListIterator<Enum> lit( g->enums ); lit.current(); ++lit ) {
if ( lit.current()->name == type )
return index;
index++;
}
return -1;
}
bool isEnumType( const char* type )
{
return enumIndex( type ) >= 0 || ( g->qtEnums.contains( type ) || g->qtSets.contains( type ) );
}
bool isPropertyType( const char* type )
{
if ( isVariantType( type ) )
return TRUE;
return isEnumType( type );
}
int generateEnums()
{
if ( g->enums.count() == 0 )
return 0;
fprintf( out, "#ifndef QT_NO_PROPERTIES\n" );
int i = 0;
for ( TQPtrListIterator<Enum> it( g->enums ); it.current(); ++it, ++i ) {
fprintf( out, " static const TQMetaEnum::Item enum_%i[] = {\n", i );
int k = 0;
for( TQStrListIterator eit( *it.current() ); eit.current(); ++eit, ++k ) {
if ( k )
fprintf( out, ",\n" );
fprintf( out, "\t{ \"%s\", (int) %s::%s }", eit.current(), (const char*) g->className, eit.current() );
}
fprintf( out, "\n };\n" );
}
fprintf( out, " static const TQMetaEnum enum_tbl[] = {\n" );
i = 0;
for ( TQPtrListIterator<Enum> it2( g->enums ); it2.current(); ++it2, ++i ) {
if ( i )
fprintf( out, ",\n" );
fprintf( out, "\t{ \"%s\", %u, enum_%i, %s }",
(const char*)it2.current()->name,
it2.current()->count(),
i,
it2.current()->set ? "TRUE" : "FALSE" );
}
fprintf( out, "\n };\n" );
fprintf( out, "#endif // QT_NO_PROPERTIES\n" );
return g->enums.count();
}
int generateProps()
{
//
// Resolve and verify property access functions
//
for( TQPtrListIterator<Property> it( g->props ); it.current(); ) {
Property* p = it.current();
++it;
// verify get function
if ( !p->get.isEmpty() ) {
FuncList candidates = g->propfuncs.find( p->get );
for ( Function* f = candidates.first(); f; f = candidates.next() ) {
if ( f->qualifier != "const" ) // get functions must be const
continue;
if ( f->args && !f->args->isEmpty() ) // and must not take any arguments
continue;
TQCString tmp = f->type;
Property::Specification spec = Property::Unspecified;
if ( p->type == "TQCString" && (tmp == "const char*" || tmp == "const char *" ) ) {
tmp = "TQCString";
spec = Property::ConstCharStar;
} else if ( tmp.right(1) == "&" ) {
tmp = tmp.left( tmp.length() - 1 );
spec = Property::Reference;
} else if ( tmp.right(1) == "*" ) {
tmp = tmp.left( tmp.length() - 1 );
spec = Property::Pointer;
} else {
spec = Property::Class;
}
if ( tmp.left(6) == "const " )
tmp = tmp.mid( 6, tmp.length() - 6 );
tmp = tmp.simplifyWhiteSpace();
if ( p->type == tmp ) {
// If it is an enum then it may not be a set
bool ok = TRUE;
for( TQPtrListIterator<Enum> lit( g->enums ); lit.current(); ++lit )
if ( lit.current()->name == p->type && lit.current()->set )
ok = FALSE;
if ( !ok ) continue;
p->gspec = spec;
p->getfunc = f;
p->oredEnum = 0;
break;
}
else if ( !isVariantType( p->type ) ) {
if ( tmp == "int" || tmp == "uint" || tmp == "unsigned int" ) {
// Test whether the enum is really a set (unfortunately we don't know enums of super classes)
bool ok = TRUE;
for( TQPtrListIterator<Enum> lit( g->enums ); lit.current(); ++lit )
if ( lit.current()->name == p->type && !lit.current()->set )
ok = FALSE;
if ( !ok ) continue;
p->gspec = spec;
p->getfunc = f;
p->oredEnum = 1;
p->enumgettype = tmp;
}
}
}
if ( p->getfunc == 0 ) {
if ( displayWarnings ) {
// Is the type a set, that means, mentioned in Q_SETS?
bool set = FALSE;
for( TQPtrListIterator<Enum> lit( g->enums ); lit.current(); ++lit )
if ( lit.current()->name == p->type && lit.current()->set )
set = TRUE;
fprintf( stderr, ErrorFormatString" Warning: Property '%s' not available.\n",
g->fileName.data(), p->lineNo, (const char*) p->name );
fprintf( stderr, " Have been looking for public get functions \n");
if ( !set ) {
fprintf( stderr,
" %s %s() const\n"
" %s& %s() const\n"
" const %s& %s() const\n"
" %s* %s() const\n",
(const char*) p->type, (const char*) p->get,
(const char*) p->type, (const char*) p->get,
(const char*) p->type, (const char*) p->get,
(const char*) p->type, (const char*) p->get );
}
if ( set || !isPropertyType( p->type ) ) {
fprintf( stderr,
" int %s() const\n"
" uint %s() const\n"
" unsigned int %s() const\n",
(const char*) p->get,
(const char*) p->get,
(const char*) p->get );
}
if ( p->type == "TQCString" )
fprintf( stderr, " const char* %s() const\n",
(const char*)p->get );
if ( candidates.isEmpty() ) {
fprintf( stderr, " but found nothing.\n");
} else {
fprintf( stderr, " but only found the mismatching candidate(s)\n");
for ( Function* f = candidates.first(); f; f = candidates.next() ) {
TQCString typstr = "";
Argument *a = f->args->first();
int count = 0;
while ( a ) {
if ( !a->leftType.isEmpty() || ! a->rightType.isEmpty() ) {
if ( count++ )
typstr += ",";
typstr += a->leftType;
typstr += a->rightType;
}
a = f->args->next();
}
fprintf( stderr, " %s:%d: %s %s(%s) %s\n", g->fileName.data(), f->lineNo,
(const char*) f->type,(const char*) f->name, (const char*) typstr,
f->qualifier.isNull()?"":(const char*) f->qualifier );
}
}
}
}
}
// verify set function
if ( !p->set.isEmpty() ) {
FuncList candidates = g->propfuncs.find( p->set );
for ( Function* f = candidates.first(); f; f = candidates.next() ) {
if ( !f->args || f->args->isEmpty() )
continue;
TQCString tmp = f->args->first()->leftType;
tmp = tmp.simplifyWhiteSpace();
Property::Specification spec = Property::Unspecified;
if ( tmp.right(1) == "&" ) {
tmp = tmp.left( tmp.length() - 1 );
spec = Property::Reference;
}
else {
spec = Property::Class;
}
if ( p->type == "TQCString" && (tmp == "const char*" || tmp == "const char *" ) ) {
tmp = "TQCString";
spec = Property::ConstCharStar;
}
if ( tmp.left(6) == "const " )
tmp = tmp.mid( 6, tmp.length() - 6 );
tmp = tmp.simplifyWhiteSpace();
if ( p->type == tmp && f->args->count() == 1 ) {
// If it is an enum then it may not be a set
if ( p->oredEnum == 1 )
continue;
bool ok = TRUE;
for( TQPtrListIterator<Enum> lit( g->enums ); lit.current(); ++lit )
if ( lit.current()->name == p->type && lit.current()->set )
ok = FALSE;
if ( !ok ) continue;
p->sspec = spec;
p->setfunc = f;
p->oredEnum = 0;
break;
} else if ( !isVariantType( p->type ) && f->args->count() == 1 ) {
if ( tmp == "int" || tmp == "uint" || tmp == "unsigned int" ) {
if ( p->oredEnum == 0 )
continue;
// Test wether the enum is really a set (unfortunately we don't know enums of super classes)
bool ok = TRUE;
for( TQPtrListIterator<Enum> lit( g->enums ); lit.current(); ++lit )
if ( lit.current()->name == p->type && !lit.current()->set )
ok = FALSE;
if ( !ok ) continue;
p->sspec = spec;
p->setfunc = f;
p->oredEnum = 1;
p->enumsettype = tmp;
}
}
}
if ( p->setfunc == 0 ) {
if ( displayWarnings ) {
// Is the type a set, that means, mentioned in Q_SETS ?
bool set = FALSE;
for( TQPtrListIterator<Enum> lit( g->enums ); lit.current(); ++lit )
if ( lit.current()->name == p->type && lit.current()->set )
set = TRUE;
fprintf( stderr, ErrorFormatString" Warning: Property '%s' not writable.\n",
g->fileName.data(), p->lineNo, (const char*) p->name );
fprintf( stderr, " Have been looking for public set functions \n");
if ( !set && p->oredEnum != 1 ) {
fprintf( stderr,
" void %s( %s )\n"
" void %s( %s& )\n"
" void %s( const %s& )\n",
(const char*) p->set, (const char*) p->type,
(const char*) p->set, (const char*) p->type,
(const char*) p->set, (const char*) p->type );
}
if ( set || ( !isPropertyType( p->type ) && p->oredEnum != 0 ) ) {
fprintf( stderr,
" void %s( int )\n"
" void %s( uint )\n"
" void %s( unsigned int )\n",
(const char*) p->set,
(const char*) p->set,
(const char*) p->set );
}
if ( p->type == "TQCString" )
fprintf( stderr, " void %s( const char* ) const\n",
(const char*) p->set );
if ( !candidates.isEmpty() ) {
fprintf( stderr, " but only found the mismatching candidate(s)\n");
for ( Function* f = candidates.first(); f; f = candidates.next() ) {
TQCString typstr = "";
Argument *a = f->args->first();
int count = 0;
while ( a ) {
if ( !a->leftType.isEmpty() || ! a->rightType.isEmpty() ) {
if ( count++ )
typstr += ",";
typstr += a->leftType;
typstr += a->rightType;
}
a = f->args->next();
}
fprintf( stderr, " %s:%d: %s %s(%s)\n", g->fileName.data(), f->lineNo,
(const char*) f->type,(const char*) f->name, (const char*) typstr );
}
}
}
}
}
}
//
// Create meta data
//
if ( g->props.count() ) {
if ( displayWarnings && !Q_OBJECTdetected )
moc_err("The declaration of the class \"%s\" contains properties"
" but no Q_OBJECT macro.", g->className.data());
fprintf( out, "#ifndef QT_NO_PROPERTIES\n" );
fprintf( out, " static const TQMetaProperty props_tbl[%d] = {\n ", g->props.count() );
for( TQPtrListIterator<Property> it( g->props ); it.current(); ++it ) {
fprintf( out, "\t{ \"%s\",\"%s\", ", it.current()->type.data(), it.current()->name.data() );
int flags = Invalid;
if ( !isVariantType( it.current()->type ) ) {
flags |= EnumOrSet;
if ( !isEnumType( it.current()->type ) )
flags |= UnresolvedEnum;
} else {
flags |= qvariant_nameToType( it.current()->type ) << 24;
}
if ( it.current()->getfunc )
flags |= Readable;
if ( it.current()->setfunc ) {
flags |= Writable;
if ( it.current()->stdSet() )
flags |= StdSet;
}
if ( it.current()->override )
flags |= Override;
if ( it.current()->designable.isEmpty() )
flags |= DesignableOverride;
else if ( it.current()->designable == "false" )
flags |= NotDesignable;
if ( it.current()->scriptable.isEmpty() )
flags |= ScriptableOverride;
else if ( it.current()->scriptable == "false" )
flags |= NotScriptable;
if ( it.current()->stored.isEmpty() )
flags |= StoredOverride;
else if ( it.current()->stored == "false" )
flags |= NotStored;
fprintf( out, "0x%.4x, ", flags );
fprintf( out, "&%s::metaObj, ", (const char*) qualifiedClassName() );
if ( !isVariantType( it.current()->type ) ) {
int enumpos = -1;
int k = 0;
for( TQPtrListIterator<Enum> eit( g->enums ); eit.current(); ++eit, ++k ) {
if ( eit.current()->name == it.current()->type )
enumpos = k;
}
// Is it an enum of this class ?
if ( enumpos != -1 )
fprintf( out, "&enum_tbl[%i], ", enumpos );
else
fprintf( out, "0, ");
} else {
fprintf( out, "0, ");
}
fprintf( out, "-1 }" );
if ( !it.atLast() )
fprintf( out, ",\n" );
else
fprintf( out, "\n" );
}
fprintf( out, " };\n" );
fprintf( out, "#endif // QT_NO_PROPERTIES\n" );
}
return g->props.count();
}
int generateClassInfos()
{
if ( g->infos.isEmpty() )
return 0;
if ( displayWarnings && !Q_OBJECTdetected )
moc_err("The declaration of the class \"%s\" contains class infos"
" but no Q_OBJECT macro.", g->className.data());
fprintf( out, " static const TQClassInfo classinfo_tbl[] = {\n" );
int i = 0;
for( TQPtrListIterator<ClassInfo> it( g->infos ); it.current(); ++it, ++i ) {
if ( i )
fprintf( out, ",\n" );
fprintf( out, "\t{ \"%s\", \"%s\" }", it.current()->name.data(),it.current()->value.data() );
}
fprintf( out, "\n };\n" );
return i;
}
void generateClass() // generate C++ source code for a class
{
const char *hdr1 = "/****************************************************************************\n"
"** %s meta object code from reading C++ file '%s'\n**\n";
const char *hdr2 = "** Created: %s\n"
const char *hdr3 = "** WARNING! All changes made in this file will be lost!\n";
const char *hdr4 = "*****************************************************************************/\n\n";
int i;
if ( skipClass ) // don't generate for class
return;
if ( !Q_OBJECTdetected ) {
if ( g->signals.count() == 0 && g->slots.count() == 0 && g->props.count() == 0 && g->infos.count() == 0 )
return;
if ( displayWarnings && (g->signals.count() + g->slots.count()) != 0 )
moc_err("The declaration of the class \"%s\" contains signals "
"or slots\n\t but no Q_OBJECT macro.", g->className.data());
} else {
if ( g->superClassName.isEmpty() )
moc_err("The declaration of the class \"%s\" contains the\n"
"\tQ_OBJECT macro but does not inherit from any class!\n"
"\tInherit from TQObject or one of its descendants"
" or remove Q_OBJECT.", g->className.data() );
}
if ( templateClass ) { // don't generate for class
moc_err( "Sorry, TQt does not support templates that contain\n"
"\tsignals, slots or Q_OBJECT." );
return;
}
g->generatedCode = TRUE;
g->gen_count++;
if ( g->gen_count == 1 ) { // first class to be generated
TQDateTime dt = TQDateTime::currentDateTime();
TQCString dstr = dt.toString().ascii();
TQCString fn = g->fileName;
i = g->fileName.length()-1;
while ( i>0 && g->fileName[i-1] != '/' && g->fileName[i-1] != '\\' )
i--; // skip path
if ( i >= 0 )
fn = &g->fileName[i];
fprintf( out, hdr1, (const char*)qualifiedClassName(),(const char*)fn);
fprintf( out, hdr2, (const char*)dstr );
fprintf( out, hdr3 );
fprintf( out, hdr4 );
if ( !g->noInclude ) {
/*
The header file might be a TQt header file with
QT_NO_COMPAT macros around signals, slots or
properties. Without the #undef, we cannot compile the
TQt library with QT_NO_COMPAT defined.
Header files of libraries build around TQt can also use
QT_NO_COMPAT, so this #undef might be beneficial to
users of TQt, and not only to developers of TQt.
*/
fprintf( out, "#undef QT_NO_COMPAT\n" );
if ( !g->pchFile.isEmpty() )
fprintf( out, "#include \"%s\" // PCH include\n", (const char*)g->pchFile );
if ( !g->includePath.isEmpty() && g->includePath.right(1) != "/" )
g->includePath += "/";
g->includeFiles.first();
while ( g->includeFiles.current() ) {
TQCString inc = g->includeFiles.current();
if ( inc[0] != '<' && inc[0] != '"' ) {
if ( !g->includePath.isEmpty() && g->includePath != "./" )
inc.prepend( g->includePath );
inc = "\"" + inc + "\"";
}
fprintf( out, "#include %s\n", (const char *)inc );
g->includeFiles.next();
}
}
fprintf( out, "#include <%sntqmetaobject.h>\n", (const char*)g->qtPath );
fprintf( out, "#include <%sntqapplication.h>\n\n", (const char*)g->qtPath );
fprintf( out, "#include <%sprivate/qucomextra_p.h>\n", (const char*)g->qtPath );
fprintf( out, "#if !defined(Q_MOC_OUTPUT_REVISION) || (Q_MOC_OUTPUT_REVISION != %d)\n", formatRevision );
fprintf( out, "#error \"This file was generated using the moc from %s."
" It\"\n#error \"cannot be used with the include files from"
" this version of TQt.\"\n#error \"(The moc has changed too"
" much.)\"\n", QT_VERSION_STR );
fprintf( out, "#endif\n\n" );
} else {
fprintf( out, "\n\n" );
}
if ( !g->hasVariantIncluded ) {
bool needToIncludeVariant = !g->props.isEmpty();
for ( Function* f =g->slots.first(); f && !needToIncludeVariant; f=g->slots.next() )
needToIncludeVariant = ( f->type != "void" && !validUType( f->type ) && isVariantType( f->type) );
if ( needToIncludeVariant ) {
fprintf( out, "#include <%sntqvariant.h>\n", (const char*)g->qtPath );
g->hasVariantIncluded = TRUE;
}
}
bool isTQObject = g->className == "TQObject" ;
//
// Generate virtual function className()
//
fprintf( out, "const char *%s::className() const\n{\n ",
(const char*)qualifiedClassName() );
fprintf( out, "return \"%s\";\n}\n\n", (const char*)qualifiedClassName() );
//
// Generate static metaObj variable
//
fprintf( out, "TQMetaObject *%s::metaObj = 0;\n", (const char*)qualifiedClassName());
//
// Generate static cleanup object variable
//
TQCString cleanup = qualifiedClassName().copy();
for ( int cnpos = 0; cnpos < cleanup.length(); cnpos++ ) {
if ( cleanup[cnpos] == ':' )
cleanup[cnpos] = '_';
}
fprintf( out, "static TQMetaObjectCleanUp cleanUp_%s( \"%s\", &%s::staticMetaObject );\n\n", (const char*)cleanup, (const char*)qualifiedClassName(), (const char*)qualifiedClassName() );
//
// Generate tr and trUtf8 member functions
//
fprintf( out, "#ifndef QT_NO_TRANSLATION\n" );
fprintf( out, "TQString %s::tr( const char *s, const char *c )\n{\n",
(const char*)qualifiedClassName() );
fprintf( out, " if ( qApp )\n" );
fprintf( out, "\treturn qApp->translate( \"%s\", s, c,"
" TQApplication::DefaultCodec );\n",
(const char*)qualifiedClassName() );
fprintf( out, " else\n" );
fprintf( out, "\treturn TQString::fromLatin1( s );\n");
fprintf( out, "}\n" );
fprintf( out, "#ifndef QT_NO_TRANSLATION_UTF8\n" );
fprintf( out, "TQString %s::trUtf8( const char *s, const char *c )\n{\n",
(const char*)qualifiedClassName() );
fprintf( out, " if ( qApp )\n" );
fprintf( out, "\treturn qApp->translate( \"%s\", s, c,"
" TQApplication::UnicodeUTF8 );\n",
(const char*)qualifiedClassName() );
fprintf( out, " else\n" );
fprintf( out, "\treturn TQString::fromUtf8( s );\n" );
fprintf( out, "}\n" );
fprintf( out, "#endif // QT_NO_TRANSLATION_UTF8\n\n" );
fprintf( out, "#endif // QT_NO_TRANSLATION\n\n" );
//
// Generate staticMetaObject member function
//
fprintf( out, "TQMetaObject* %s::staticMetaObject()\n{\n", (const char*)qualifiedClassName() );
fprintf( out, " if ( metaObj )\n\treturn metaObj;\n" );
if ( isTQObject )
fprintf( out, " TQMetaObject* parentObject = staticTQtMetaObject();\n" );
else if ( !g->superClassName.isEmpty() )
fprintf( out, " TQMetaObject* parentObject = %s::staticMetaObject();\n", (const char*)g->superClassName );
else
fprintf( out, " TQMetaObject* parentObject = 0;\n" );
//
// Build the classinfo array
//
int n_infos = generateClassInfos();
// Build the enums array
// Enums HAVE to be generated BEFORE the properties and slots
//
int n_enums = generateEnums();
//
// Build slots array in staticMetaObject()
//
generateFuncs( &g->slots, "slot", Slot_Num );
//
// Build signals array in staticMetaObject()
//
generateFuncs( &g->signals, "signal", Signal_Num );
//
// Build property array in staticMetaObject()
//
int n_props = generateProps();
//
// Finally code to create and return meta object
//
fprintf( out, " metaObj = TQMetaObject::new_metaobject(\n"
"\t\"%s\", parentObject,\n", (const char*)qualifiedClassName() );
if ( g->slots.count() )
fprintf( out, "\tslot_tbl, %d,\n", g->slots.count() );
else
fprintf( out, "\t0, 0,\n" );
if ( g->signals.count() )
fprintf( out, "\tsignal_tbl, %d,\n", g->signals.count() );
else
fprintf( out, "\t0, 0,\n" );
fprintf( out, "#ifndef QT_NO_PROPERTIES\n" );
if ( n_props )
fprintf( out, "\tprops_tbl, %d,\n", n_props );
else
fprintf( out, "\t0, 0,\n" );
if ( n_enums )
fprintf( out, "\tenum_tbl, %d,\n", n_enums );
else
fprintf( out, "\t0, 0,\n" );
fprintf( out, "#endif // QT_NO_PROPERTIES\n" );
if ( n_infos )
fprintf( out, "\tclassinfo_tbl, %d );\n", n_infos );
else
fprintf( out, "\t0, 0 );\n" );
//
// Setup cleanup handler and return meta object
//
fprintf( out, " cleanUp_%s.setMetaObject( metaObj );\n", cleanup.data() );
fprintf( out, " return metaObj;\n}\n" );
//
// End of function staticMetaObject()
//
//
// Generate smart cast function
//
fprintf( out, "\nvoid* %s::qt_cast( const char* clname )\n{\n",
(const char*)qualifiedClassName() );
fprintf( out, " if ( !qstrcmp( clname, \"%s\" ) )\n"
"\treturn this;\n",
(const char*)qualifiedClassName() );
for ( const char* cname = g->multipleSuperClasses.first(); cname; cname = g->multipleSuperClasses.next() ) {
fprintf( out, " if ( !qstrcmp( clname, \"%s\" ) )\n", cname);
TQCString fixed(cname);
while (fixed.find(">>") != -1)
fixed = fixed.replace(">>", "> >");
fprintf( out, "\treturn (%s*)this;\n", fixed.data());
}
if ( !g->superClassName.isEmpty() && !isTQObject )
fprintf( out, " return %s::qt_cast( clname );\n",
(const char*)purestSuperClassName() );
else
fprintf( out, " return 0;\n" );
fprintf( out, "}\n" );
//
// Generate internal signal functions
//
Function *f;
f = g->signals.first(); // make internal signal methods
static bool included_list_headers = FALSE;
int sigindex = 0;
while ( f ) {
TQCString argstr;
char buf[12];
Argument *a = f->args->first();
int offset = 0;
const char *predef_call_func = 0;
bool hasReturnValue = f->type != "void" && (validUType( f->type ) || isVariantType( f->type) );
if ( hasReturnValue ) {
; // no predefined function available
} else if ( !a ) {
predef_call_func = "activate_signal";
} else if ( f->args->count() == 1 ) {
TQCString ctype = (a->leftType + ' ' + a->rightType).simplifyWhiteSpace();
if ( !isInOut( ctype ) ) {
TQCString utype = uType( ctype );
if ( utype == "bool" )
predef_call_func = "activate_signal_bool";
else if ( utype == "TQString" || utype == "int" || utype == "double" )
predef_call_func = "activate_signal";
}
}
if ( !predef_call_func && !included_list_headers ) {
// yes we need it, because otherwise QT_VERSION may not be defined
fprintf( out, "\n#include <%sntqobjectdefs.h>\n", (const char*)g->qtPath );
fprintf( out, "#include <%sntqsignalslotimp.h>\n", (const char*)g->qtPath );
included_list_headers = TRUE;
}
while ( a ) { // argument list
if ( !a->leftType.isEmpty() || !a->rightType.isEmpty() ) {
argstr += a->leftType;
argstr += " ";
sprintf( buf, "t%d", offset++ );
argstr += buf;
argstr += a->rightType;
a = f->args->next();
if ( a )
argstr += ", ";
} else {
a = f->args->next();
}
}
fixRightAngles( &argstr );
fprintf( out, "\n// SIGNAL %s\n", (const char*)f->name );
fprintf( out, "%s %s::%s(", (const char*) f->type,
(const char*)qualifiedClassName(),
(const char*)f->name );
if ( argstr.isEmpty() )
fprintf( out, ")\n{\n" );
else
fprintf( out, " %s )\n{\n", (const char*)argstr );
if ( predef_call_func ) {
fprintf( out, " %s( staticMetaObject()->signalOffset() + %d", predef_call_func, sigindex );
if ( !argstr.isEmpty() )
fprintf( out, ", t0" );
fprintf( out, " );\n}\n" );
} else {
if ( hasReturnValue )
fprintf( out, " %s something;\n", f->type.data() );
int nargs = f->args->count();
fprintf( out, " if ( signalsBlocked() )\n\treturn%s;\n", hasReturnValue ? " something" : "" );
fprintf( out, " TQConnectionList *clist = receivers( staticMetaObject()->signalOffset() + %d );\n",
sigindex );
fprintf( out, " if ( !clist )\n\treturn%s;\n", hasReturnValue ? " something" : "" );
fprintf( out, " TQUObject o[%d];\n", f->args->count() + 1 );
// initialize return value to something
if ( hasReturnValue ) {
if ( validUType( f->type ) ) {
TQCString utype = uType( f->type );
fprintf( out, " static_QUType_%s.set(o,something);\n", utype.data() );
} else if ( uType( f->type ) == "varptr" ) {
fprintf( out, " static_QUType_varptr.set(o,&something);\n" );
} else {
fprintf( out, " static_QUType_ptr.set(o,&something);\n" );
}
}
// initialize arguments
if ( !f->args->isEmpty() ) {
offset = 0;
Argument* a = f->args->first();
while ( a ) {
TQCString type = a->leftType + ' ' + a->rightType;
type = type.simplifyWhiteSpace();
if ( validUType( type ) ) {
TQCString utype = uType( type );
fprintf( out, " static_QUType_%s.set(o+%d,t%d);\n", utype.data(), offset+1, offset );
} else if ( uType( type ) == "varptr" ) {
fprintf( out, " static_QUType_varptr.set(o+%d,&t%d);\n", offset+1, offset );
} else {
fprintf( out, " static_QUType_ptr.set(o+%d,&t%d);\n", offset+1, offset );
}
a = f->args->next();
offset++;
}
}
fprintf( out, " activate_signal( clist, o );\n" );
// get return values from inOut parameters
if ( !f->args->isEmpty() ) {
offset = 0;
Argument* a = f->args->first();
while ( a ) {
TQCString type = a->leftType + ' ' + a->rightType;
type = type.simplifyWhiteSpace();
if ( validUType( type ) && isInOut( type ) ) {
TQCString utype = uType( type );
if ( utype == "enum" )
fprintf( out, " t%d = (%s)static_QUType_%s.get(o+%d);\n", offset, type.data(), utype.data(), offset+1 );
else if ( utype == "ptr" && type.right(2) == "**" )
fprintf( out, " if (t%d) *t%d = *(%s)static_QUType_ptr.get(o+%d);\n", offset, offset, type.data(), offset+1 );
else
fprintf( out, " t%d = static_QUType_%s.get(o+%d);\n", offset, utype.data(), offset+1 );
}
a = f->args->next();
offset++;
}
}
// get and return return value
if ( hasReturnValue ) {
TQCString utype = uType( f->type );
if ( utype == "enum" || utype == "ptr" || utype == "varptr" ) // need cast
fprintf( out, " return (%s)static_QUType_%s.get(o);\n", f->type.data(), utype.data() );
else
fprintf( out, " return static_QUType_%s.get(o);\n", utype.data() );
}
fprintf( out, "}\n" );
}
f = g->signals.next();
sigindex++;
}
//
// Generate internal qt_invoke() function
//
fprintf( out, "\nbool %s::qt_invoke( int _id, TQUObject* _o )\n{\n", qualifiedClassName().data() );
if( !g->slots.isEmpty() ) {
fprintf( out, " switch ( _id - staticMetaObject()->slotOffset() ) {\n" );
int slotindex = -1;
for ( f = g->slots.first(); f; f = g->slots.next() ) {
slotindex ++;
if ( f->type == "void" && f->args->isEmpty() ) {
fprintf( out, " case %d: %s(); break;\n", slotindex, f->name.data() );
continue;
}
fprintf( out, " case %d: ", slotindex );
bool hasReturnValue = FALSE;
bool hasVariantReturn = FALSE;
if ( f->type != "void" ) {
if ( validUType( f->type )) {
hasReturnValue = TRUE;
fprintf( out, "static_QUType_%s.set(_o,", uType(f->type).data() );
} else if ( isVariantType( f->type ) ) {
hasReturnValue = hasVariantReturn = TRUE;
// do not need special handling for bool since this is handled as utype
fprintf( out, "static_QUType_TQVariant.set(_o,TQVariant(" );
}
}
int offset = 0;
fprintf( out, "%s(", f->name.data() );
Argument* a = f->args->first();
while ( a ) {
TQCString type = a->leftType + ' ' + a->rightType;
type = type.simplifyWhiteSpace();
fixRightAngles( &type );
if ( validUType( type ) ) {
TQCString utype = uType( type );
if ( utype == "ptr" || utype == "varptr" || utype == "enum" )
fprintf( out, "(%s)static_QUType_%s.get(_o+%d)", type.data(), utype.data(), offset+1 );
else
fprintf( out, "(%s)static_QUType_%s.get(_o+%d)", type.data(), utype.data(), offset+1 );
} else {
TQCString castType = castToUType( type );
if(castType == type)
fprintf( out, "(%s)(*((%s*)static_QUType_ptr.get(_o+%d)))", type.data(),
castType.data(), offset+1 );
else
fprintf( out, "(%s)*((%s*)static_QUType_ptr.get(_o+%d))", type.data(),
castType.data(), offset+1 );
}
a = f->args->next();
if ( a )
fprintf( out, "," );
offset++;
}
fprintf( out, ")" );
if ( hasReturnValue )
fprintf( out, ")" );
if ( hasVariantReturn )
fprintf( out, ")" );
fprintf( out, "; break;\n" );
}
fprintf( out, " default:\n" );
if ( !g->superClassName.isEmpty() && !isTQObject ) {
fprintf( out, "\treturn %s::qt_invoke( _id, _o );\n",
(const char *) purestSuperClassName() );
} else {
fprintf( out, "\treturn FALSE;\n" );
}
fprintf( out, " }\n" );
fprintf( out, " return TRUE;\n}\n" );
} else {
if ( !g->superClassName.isEmpty() && !isTQObject )
fprintf( out, " return %s::qt_invoke(_id,_o);\n}\n",
(const char *) purestSuperClassName() );
else
fprintf( out, " return FALSE;\n}\n" );
}
//
// Generate internal qt_emit() function
//
fprintf( out, "\nbool %s::qt_emit( int _id, TQUObject* _o )\n{\n", qualifiedClassName().data() );
if ( !g->signals.isEmpty() ) {
fprintf( out, " switch ( _id - staticMetaObject()->signalOffset() ) {\n" );
int signalindex = -1;
for ( f = g->signals.first(); f; f = g->signals.next() ) {
signalindex++;
if ( f->type == "void" && f->args->isEmpty() ) {
fprintf( out, " case %d: %s(); break;\n", signalindex, f->name.data() );
continue;
}
fprintf( out, " case %d: ", signalindex );
bool hasReturnValue = FALSE;
if ( f->type != "void" && validUType( f->type )) {
hasReturnValue = TRUE;
fprintf( out, "static_QUType_%s.set(_o,", uType(f->type).data() );
}
int offset = 0;
fprintf( out, "%s(", f->name.data() );
Argument* a = f->args->first();
while ( a ) {
TQCString type = a->leftType + ' ' + a->rightType;
type = type.simplifyWhiteSpace();
fixRightAngles( &type );
if ( validUType( type ) ) {
TQCString utype = uType( type );
if ( utype == "ptr" || utype == "varptr" || utype == "enum" )
fprintf( out, "(%s)static_QUType_%s.get(_o+%d)", type.data(), utype.data(), offset+1 );
else
fprintf( out, "(%s)static_QUType_%s.get(_o+%d)", type.data(), utype.data(), offset+1 );
} else {
TQCString castType = castToUType( type );
if(castType == type)
fprintf( out, "(%s)(*((%s*)static_QUType_ptr.get(_o+%d)))", type.data(),
castType.data(), offset+1 );
else
fprintf( out, "(%s)*((%s*)static_QUType_ptr.get(_o+%d))", type.data(),
castType.data(), offset+1 );
}
a = f->args->next();
if ( a )
fprintf( out, "," );
offset++;
}
fprintf( out, ")" );
if ( hasReturnValue )
fprintf( out, ")" );
fprintf( out, "; break;\n" );
}
fprintf( out, " default:\n" );
if ( !g->superClassName.isEmpty() && !isTQObject )
fprintf( out, "\treturn %s::qt_emit(_id,_o);\n",
(const char *) purestSuperClassName() );
else
fprintf( out, "\treturn FALSE;\n" );
fprintf( out, " }\n" );
fprintf( out, " return TRUE;\n}\n" );
} else {
if ( !g->superClassName.isEmpty() && !isTQObject )
fprintf( out, " return %s::qt_emit(_id,_o);\n}\n",
(const char *) purestSuperClassName() );
else
fprintf( out, " return FALSE;\n}\n" );
}
fprintf( out, "#ifndef QT_NO_PROPERTIES\n" );
//
// Generate internal qt_property() functions
//
fprintf( out, "\nbool %s::qt_property( int id, int f, TQVariant* v)\n{\n", qualifiedClassName().data() );
if ( !g->props.isEmpty() ) {
fprintf( out, " switch ( id - staticMetaObject()->propertyOffset() ) {\n" );
int propindex = -1;
bool need_resolve = FALSE;
for( TQPtrListIterator<Property> it( g->props ); it.current(); ++it ){
propindex ++;
fprintf( out, " case %d: ", propindex );
fprintf( out, "switch( f ) {\n" );
uint flag_break = 0;
uint flag_propagate = 0;
if ( it.current()->setfunc ) {
fprintf( out, "\tcase 0: %s(", it.current()->setfunc->name.data() );
TQCString type = it.current()->type.copy(); // detach on purpose
if ( it.current()->oredEnum )
type = it.current()->enumsettype;
if ( type == "uint" )
fprintf( out, "v->asUInt()" );
else if ( type == "unsigned int" )
fprintf( out, "(uint)v->asUInt()" );
else if ( type == "TQMap<TQString,TQVariant>" )
fprintf( out, "v->asMap()" );
else if ( type == "TQValueList<TQVariant>" )
fprintf( out, "v->asList()" );
else if ( type == "Q_LLONG" )
fprintf( out, "v->asLongLong()" );
else if ( type == "Q_ULLONG" )
fprintf( out, "v->asULongLong()" );
else if ( isVariantType( type ) ) {
if (( type[0] == 'T' ) && ( type[1] == 'Q' ))
type = type.mid(2);
else
type[0] = toupper( type[0] );
fprintf( out, "v->as%s()", type.data() );
} else {
fprintf( out, "(%s&)v->asInt()", type.data() );
}
fprintf( out, "); break;\n" );
} else if ( it.current()->override ) {
flag_propagate |= 1 << (0+1);
}
if ( it.current()->getfunc ) {
if ( it.current()->gspec == Property::Pointer )
fprintf( out, "\tcase 1: if ( this->%s() ) *v = TQVariant( %s*%s()%s ); break;\n",
it.current()->getfunc->name.data(),
!isVariantType( it.current()->type ) ? "(int)" : "",
it.current()->getfunc->name.data(),
it.current()->type == "bool" ? ", 0" : "" );
else
fprintf( out, "\tcase 1: *v = TQVariant( %sthis->%s()%s ); break;\n",
!isVariantType( it.current()->type ) ? "(int)" : "",
it.current()->getfunc->name.data(),
it.current()->type == "bool" ? ", 0" : "" );
} else if ( it.current()->override ) {
flag_propagate |= 1<< (1+1);
}
if ( !it.current()->reset.isEmpty() )
fprintf( out, "\tcase 2: this->%s(); break;\n", it.current()->reset.data() );
if ( it.current()->designable.isEmpty() )
flag_propagate |= 1 << (3+1);
else if ( it.current()->designable == "true" )
flag_break |= 1 << (3+1);
else if ( it.current()->designable != "false" )
fprintf( out, "\tcase 3: return this->%s();\n", it.current()->designable.data() );
if ( it.current()->scriptable.isEmpty() )
flag_propagate |= 1 << (4+1);
else if ( it.current()->scriptable == "true" )
flag_break |= 1 << (4+1);
else if ( it.current()->scriptable != "false" )
fprintf( out, "\tcase 4: return this->%s();\n", it.current()->scriptable.data() );
if ( it.current()->stored.isEmpty() )
flag_propagate |= 1 << (5+1);
else if ( it.current()->stored == "true" )
flag_break |= 1 << (5+1);
else if ( it.current()->stored != "false" )
fprintf( out, "\tcase 5: return this->%s();\n", it.current()->stored.data() );
int i = 0;
if ( flag_propagate != 0 ) {
fprintf( out, "\t" );
for ( i = 0; i <= 5; i++ ) {
if ( flag_propagate & (1 << (i+1) ) )
fprintf( out, "case %d: ", i );
}
if (!g->superClassName.isEmpty() && !isTQObject ) {
fprintf( out, "goto resolve;\n" );
need_resolve = TRUE;
} else {
fprintf( out, " return FALSE;\n" );
}
}
if ( flag_break != 0 ) {
fprintf( out, "\t" );
for ( i = 0; i <= 5; i++ ) {
if ( flag_break & (1 << (i+1) ) )
fprintf( out, "case %d: ", i );
}
fprintf( out, "break;\n");
}
fprintf( out, "\tdefault: return FALSE;\n } break;\n" );
}
fprintf( out, " default:\n" );
if ( !g->superClassName.isEmpty() && !isTQObject )
fprintf( out, "\treturn %s::qt_property( id, f, v );\n",
(const char *) purestSuperClassName() );
else
fprintf( out, "\treturn FALSE;\n" );
fprintf( out, " }\n" );
fprintf( out, " return TRUE;\n" );
if ( need_resolve )
fprintf( out, "resolve:\n return %s::qt_property( staticMetaObject()->resolveProperty(id), f, v );\n",
(const char *) purestSuperClassName() );
fprintf( out, "}\n" );
} else {
if ( !g->superClassName.isEmpty() && !isTQObject )
fprintf( out, " return %s::qt_property( id, f, v);\n}\n",
(const char *) purestSuperClassName() );
else
fprintf( out, " return FALSE;\n}\n" );
}
fprintf( out, "\nbool %s::qt_static_property( TQObject* , int , int , TQVariant* ){ return FALSE; }\n", qualifiedClassName().data() );
fprintf( out, "#endif // QT_NO_PROPERTIES\n" );
}
ArgList *addArg( Argument *a ) // add argument to list
{
if ( (!a->leftType.isEmpty() || !a->rightType.isEmpty() ) ) //filter out truely void arguments
tmpArgList->append( a );
return tmpArgList;
}
void addEnum()
{
// Avoid duplicates
for( TQPtrListIterator<Enum> lit( g->enums ); lit.current(); ++lit ) {
if ( lit.current()->name == tmpEnum->name )
{
if ( displayWarnings )
moc_err( "Enum %s defined twice.", (const char*)tmpEnum->name );
}
}
// Only look at types mentioned in Q_ENUMS and Q_SETS
if ( g->qtEnums.contains( tmpEnum->name ) || g->qtSets.contains( tmpEnum->name ) )
{
g->enums.append( tmpEnum );
if ( g->qtSets.contains( tmpEnum->name ) )
tmpEnum->set = TRUE;
else
tmpEnum->set = FALSE;
}
else
delete tmpEnum;
tmpEnum = new Enum;
}
void addMember( Member m )
{
if ( skipFunc ) {
tmpFunc->args = tmpArgList; // just to be sure
delete tmpFunc;
tmpArgList = new ArgList; // ugly but works
tmpFunc = new Function;
skipFunc = FALSE;
return;
}
tmpFunc->type = tmpFunc->type.simplifyWhiteSpace();
tmpFunc->access = tmpAccess;
tmpFunc->args = tmpArgList;
tmpFunc->lineNo = lineNo;
for ( ;; ) {
g->funcs.append( tmpFunc );
if ( m == SignalMember ) {
g->signals.append( tmpFunc );
break;
} else {
if ( m == SlotMember )
g->slots.append( tmpFunc );
// PropertyCandidateMember or SlotMember
if ( !tmpFunc->name.isEmpty() && tmpFunc->access == Public )
g->propfuncs.append( tmpFunc );
if ( !tmpFunc->args || !tmpFunc->args->hasDefaultArguments() )
break;
tmpFunc = new Function( *tmpFunc );
tmpFunc->args = tmpFunc->args->magicClone();
}
}
skipFunc = FALSE;
tmpFunc = new Function;
tmpArgList = new ArgList;
}
void checkPropertyName( const char* ident )
{
if ( ident[0] == '_' ) {
moc_err( "Invalid property name '%s'.", ident );
return;
}
}
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