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tdelibs/tdecore/kconfig_compiler/kconfig_compiler.cpp

1701 lines
51 KiB

// -*- Mode: C++; c-basic-offset: 2; indent-tabs-mode: nil; -*-
/*
This file is part of KDE.
Copyright (c) 2003 Cornelius Schumacher <schumacher@kde.org>
Copyright (c) 2003 Waldo Bastian <bastian@kde.org>
Copyright (c) 2003 Zack Rusin <zack@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#include <tqfile.h>
#include <tqtextstream.h>
#include <tqdom.h>
#include <tqregexp.h>
#include <kaboutdata.h>
#include <kapplication.h>
#include <kdebug.h>
#include <klocale.h>
#include <kcmdlineargs.h>
#include <kglobal.h>
#include <kconfig.h>
#include <ksimpleconfig.h>
#include <kstandarddirs.h>
#include <iostream>
static const KCmdLineOptions options[] =
{
{ "d", 0, 0 },
{ "directory <dir>", I18N_NOOP("Directory to generate files in"), "." },
{ "+file.kcfg", I18N_NOOP("Input kcfg XML file"), 0 },
{ "+file.kcfgc", I18N_NOOP("Code generation options file"), 0 },
KCmdLineLastOption
};
bool globalEnums;
bool itemAccessors;
bool dpointer;
TQStringList allNames;
TQRegExp *validNameRegexp;
TQString This;
TQString Const;
class CfgEntry
{
public:
struct Choice
{
TQString name;
TQString label;
TQString whatsThis;
};
CfgEntry( const TQString &group, const TQString &type, const TQString &key,
const TQString &name, const TQString &label,
const TQString &whatsThis, const TQString &code,
const TQString &defaultValue, const TQValueList<Choice> &choices,
bool hidden )
: mGroup( group ), mType( type ), mKey( key ), mName( name ),
mLabel( label ), mWhatsThis( whatsThis ), mCode( code ),
mDefaultValue( defaultValue ),
mChoices( choices ), mHidden( hidden )
{
}
void setGroup( const TQString &group ) { mGroup = group; }
TQString group() const { return mGroup; }
void setType( const TQString &type ) { mType = type; }
TQString type() const { return mType; }
void setKey( const TQString &key ) { mKey = key; }
TQString key() const { return mKey; }
void setName( const TQString &name ) { mName = name; }
TQString name() const { return mName; }
void setLabel( const TQString &label ) { mLabel = label; }
TQString label() const { return mLabel; }
void setWhatsThis( const TQString &whatsThis ) { mWhatsThis = whatsThis; }
TQString whatsThis() const { return mWhatsThis; }
void setDefaultValue( const TQString &d ) { mDefaultValue = d; }
TQString defaultValue() const { return mDefaultValue; }
void setCode( const TQString &d ) { mCode = d; }
TQString code() const { return mCode; }
void setMinValue( const TQString &d ) { mMin = d; }
TQString minValue() const { return mMin; }
void setMaxValue( const TQString &d ) { mMax = d; }
TQString maxValue() const { return mMax; }
void setParam( const TQString &d ) { mParam = d; }
TQString param() const { return mParam; }
void setParamName( const TQString &d ) { mParamName = d; }
TQString paramName() const { return mParamName; }
void setParamType( const TQString &d ) { mParamType = d; }
TQString paramType() const { return mParamType; }
void setChoices( const TQValueList<Choice> &d ) { mChoices = d; }
TQValueList<Choice> choices() const { return mChoices; }
void setParamValues( const TQStringList &d ) { mParamValues = d; }
TQStringList paramValues() const { return mParamValues; }
void setParamDefaultValues( const TQStringList &d ) { mParamDefaultValues = d; }
TQString paramDefaultValue(int i) const { return mParamDefaultValues[i]; }
void setParamMax( int d ) { mParamMax = d; }
int paramMax() const { return mParamMax; }
bool hidden() const { return mHidden; }
void dump() const
{
kdDebug() << "<entry>" << endl;
kdDebug() << " group: " << mGroup << endl;
kdDebug() << " type: " << mType << endl;
kdDebug() << " key: " << mKey << endl;
kdDebug() << " name: " << mName << endl;
kdDebug() << " label: " << mLabel << endl;
// whatsthis
kdDebug() << " code: " << mCode << endl;
// kdDebug() << " values: " << mValues.join(":") << endl;
if (!param().isEmpty())
{
kdDebug() << " param name: "<< mParamName << endl;
kdDebug() << " param type: "<< mParamType << endl;
kdDebug() << " paramvalues: " << mParamValues.join(":") << endl;
}
kdDebug() << " default: " << mDefaultValue << endl;
kdDebug() << " hidden: " << mHidden << endl;
kdDebug() << " min: " << mMin << endl;
kdDebug() << " max: " << mMax << endl;
kdDebug() << "</entry>" << endl;
}
private:
TQString mGroup;
TQString mType;
TQString mKey;
TQString mName;
TQString mLabel;
TQString mWhatsThis;
TQString mCode;
TQString mDefaultValue;
TQString mParam;
TQString mParamName;
TQString mParamType;
TQValueList<Choice> mChoices;
TQStringList mParamValues;
TQStringList mParamDefaultValues;
int mParamMax;
bool mHidden;
TQString mMin;
TQString mMax;
};
class Param {
public:
TQString name;
TQString type;
};
// returns the name of an member variable
// use itemPath to know the full path
// like using d-> in case of dpointer
static TQString varName(const TQString &n)
{
TQString result;
if ( !dpointer ) {
result = "m"+n;
result[1] = result[1].upper();
}
else {
result = n;
result[0] = result[0].lower();
}
return result;
}
static TQString varPath(const TQString &n)
{
TQString result;
if ( dpointer ) {
result = "d->"+varName(n);
}
else {
result = varName(n);
}
return result;
}
static TQString enumName(const TQString &n)
{
TQString result = "Enum"+n;
result[4] = result[4].upper();
return result;
}
static TQString setFunction(const TQString &n, const TQString &className = TQString())
{
TQString result = "set"+n;
result[3] = result[3].upper();
if ( !className.isEmpty() )
result = className + "::" + result;
return result;
}
static TQString getFunction(const TQString &n, const TQString &className = TQString())
{
TQString result = n;
result[0] = result[0].lower();
if ( !className.isEmpty() )
result = className + "::" + result;
return result;
}
static void addQuotes( TQString &s )
{
if ( s.left( 1 ) != "\"" ) s.prepend( "\"" );
if ( s.right( 1 ) != "\"" ) s.append( "\"" );
}
static TQString quoteString( const TQString &s )
{
TQString r = s;
r.replace( "\\", "\\\\" );
r.replace( "\"", "\\\"" );
r.replace( "\r", "" );
r.replace( "\n", "\\n\"\n\"" );
return "\"" + r + "\"";
}
static TQString literalString( const TQString &s )
{
bool isAscii = true;
for(int i = s.length(); i--;)
if (s[i].tqunicode() > 127) isAscii = false;
if (isAscii)
return "TQString::tqfromLatin1( " + quoteString(s) + " )";
else
return "TQString::fromUtf8( " + quoteString(s) + " )";
}
static TQString dumpNode(const TQDomNode &node)
{
TQString msg;
TQTextStream s(&msg, IO_WriteOnly );
node.save(s, 0);
msg = msg.simplifyWhiteSpace();
if (msg.length() > 40)
return msg.left(37)+"...";
return msg;
}
static TQString filenameOnly(TQString path)
{
int i = path.findRev('/');
if (i >= 0)
return path.mid(i+1);
return path;
}
static void preProcessDefault( TQString &defaultValue, const TQString &name,
const TQString &type,
const TQValueList<CfgEntry::Choice> &choices,
TQString &code )
{
if ( type == "String" && !defaultValue.isEmpty() ) {
defaultValue = literalString(defaultValue);
} else if ( type == "Path" && !defaultValue.isEmpty() ) {
defaultValue = literalString( defaultValue );
} else if ( (type == "StringList" || type == "PathList") && !defaultValue.isEmpty() ) {
TQTextStream cpp( &code, IO_WriteOnly | IO_Append );
if (!code.isEmpty())
cpp << endl;
cpp << " TQStringList default" << name << ";" << endl;
TQStringList defaults = TQStringList::split( ",", defaultValue );
TQStringList::ConstIterator it;
for( it = defaults.begin(); it != defaults.end(); ++it ) {
cpp << " default" << name << ".append( TQString::fromUtf8( \"" << *it << "\" ) );"
<< endl;
}
defaultValue = "default" + name;
} else if ( type == "Color" && !defaultValue.isEmpty() ) {
TQRegExp colorRe("\\d+,\\s*\\d+,\\s*\\d+");
if (colorRe.exactMatch(defaultValue))
{
defaultValue = "TQColor( " + defaultValue + " )";
}
else
{
defaultValue = "TQColor( \"" + defaultValue + "\" )";
}
} else if ( type == "Enum" ) {
if ( !globalEnums ) {
TQValueList<CfgEntry::Choice>::ConstIterator it;
for( it = choices.begin(); it != choices.end(); ++it ) {
if ( (*it).name == defaultValue ) {
defaultValue.prepend( enumName(name) + "::");
break;
}
}
}
} else if ( type == "IntList" ) {
TQTextStream cpp( &code, IO_WriteOnly | IO_Append );
if (!code.isEmpty())
cpp << endl;
cpp << " TQValueList<int> default" << name << ";" << endl;
TQStringList defaults = TQStringList::split( ",", defaultValue );
TQStringList::ConstIterator it;
for( it = defaults.begin(); it != defaults.end(); ++it ) {
cpp << " default" << name << ".append( " << *it << " );"
<< endl;
}
defaultValue = "default" + name;
}
}
CfgEntry *parseEntry( const TQString &group, const TQDomElement &element )
{
bool defaultCode = false;
TQString type = element.attribute( "type" );
TQString name = element.attribute( "name" );
TQString key = element.attribute( "key" );
TQString hidden = element.attribute( "hidden" );
TQString label;
TQString whatsThis;
TQString defaultValue;
TQString code;
TQString param;
TQString paramName;
TQString paramType;
TQValueList<CfgEntry::Choice> choices;
TQStringList paramValues;
TQStringList paramDefaultValues;
TQString minValue;
TQString maxValue;
int paramMax = 0;
TQDomNode n;
for ( n = element.firstChild(); !n.isNull(); n = n.nextSibling() ) {
TQDomElement e = n.toElement();
TQString tag = e.tagName();
if ( tag == "label" ) label = e.text();
else if ( tag == "whatsthis" ) whatsThis = e.text();
else if ( tag == "min" ) minValue = e.text();
else if ( tag == "max" ) maxValue = e.text();
else if ( tag == "code" ) code = e.text();
else if ( tag == "parameter" )
{
param = e.attribute( "name" );
paramType = e.attribute( "type" );
if ( param.isEmpty() ) {
kdError() << "Parameter must have a name: " << dumpNode(e) << endl;
return 0;
}
if ( paramType.isEmpty() ) {
kdError() << "Parameter must have a type: " << dumpNode(e) << endl;
return 0;
}
if ((paramType == "Int") || (paramType == "UInt"))
{
bool ok;
paramMax = e.attribute("max").toInt(&ok);
if (!ok)
{
kdError() << "Integer parameter must have a maximum (e.g. max=\"0\"): " << dumpNode(e) << endl;
return 0;
}
}
else if (paramType == "Enum")
{
TQDomNode n2;
for ( n2 = e.firstChild(); !n2.isNull(); n2 = n2.nextSibling() ) {
TQDomElement e2 = n2.toElement();
if (e2.tagName() == "values")
{
TQDomNode n3;
for ( n3 = e2.firstChild(); !n3.isNull(); n3 = n3.nextSibling() ) {
TQDomElement e3 = n3.toElement();
if (e3.tagName() == "value")
{
paramValues.append( e3.text() );
}
}
break;
}
}
if (paramValues.isEmpty())
{
kdError() << "No values specified for parameter '" << param << "'." << endl;
return 0;
}
paramMax = paramValues.count()-1;
}
else
{
kdError() << "Parameter '" << param << "' has type " << paramType << " but must be of type int, uint or Enum." << endl;
return 0;
}
}
else if ( tag == "default" )
{
if (e.attribute("param").isEmpty())
{
defaultValue = e.text();
if (e.attribute( "code" ) == "true")
defaultCode = true;
}
}
else if ( tag == "choices" ) {
TQDomNode n2;
for( n2 = e.firstChild(); !n2.isNull(); n2 = n2.nextSibling() ) {
TQDomElement e2 = n2.toElement();
if ( e2.tagName() == "choice" ) {
TQDomNode n3;
CfgEntry::Choice choice;
choice.name = e2.attribute( "name" );
if ( choice.name.isEmpty() ) {
kdError() << "Tag <choice> requires attribute 'name'." << endl;
}
for( n3 = e2.firstChild(); !n3.isNull(); n3 = n3.nextSibling() ) {
TQDomElement e3 = n3.toElement();
if ( e3.tagName() == "label" ) choice.label = e3.text();
if ( e3.tagName() == "whatsthis" ) choice.whatsThis = e3.text();
}
choices.append( choice );
}
}
}
}
bool nameIsEmpty = name.isEmpty();
if ( nameIsEmpty && key.isEmpty() ) {
kdError() << "Entry must have a name or a key: " << dumpNode(element) << endl;
return 0;
}
if ( key.isEmpty() ) {
key = name;
}
if ( nameIsEmpty ) {
name = key;
name.replace( " ", TQString() );
} else if ( name.contains( ' ' ) ) {
kdWarning()<<"Entry '"<<name<<"' contains spaces! <name> elements can't contain speces!"<<endl;
name.remove( ' ' );
}
if (name.contains("$("))
{
if (param.isEmpty())
{
kdError() << "Name may not be parameterized: " << name << endl;
return 0;
}
}
else
{
if (!param.isEmpty())
{
kdError() << "Name must contain '$(" << param << ")': " << name << endl;
return 0;
}
}
if ( label.isEmpty() ) {
label = key;
}
if ( type.isEmpty() ) type = "String"; // XXX : implicit type might be bad
if (!param.isEmpty())
{
// Adjust name
paramName = name;
name.replace("$("+param+")", TQString());
// Lookup defaults for indexed entries
for(int i = 0; i <= paramMax; i++)
{
paramDefaultValues.append(TQString());
}
TQDomNode n;
for ( n = element.firstChild(); !n.isNull(); n = n.nextSibling() ) {
TQDomElement e = n.toElement();
TQString tag = e.tagName();
if ( tag == "default" )
{
TQString index = e.attribute("param");
if (index.isEmpty())
continue;
bool ok;
int i = index.toInt(&ok);
if (!ok)
{
i = paramValues.findIndex(index);
if (i == -1)
{
kdError() << "Index '" << index << "' for default value is unknown." << endl;
return 0;
}
}
if ((i < 0) || (i > paramMax))
{
kdError() << "Index '" << i << "' for default value is out of range [0, "<< paramMax<<"]." << endl;
return 0;
}
TQString tmpDefaultValue = e.text();
if (e.attribute( "code" ) != "true")
preProcessDefault(tmpDefaultValue, name, type, choices, code);
paramDefaultValues[i] = tmpDefaultValue;
}
}
}
if (!validNameRegexp->exactMatch(name))
{
if (nameIsEmpty)
kdError() << "The key '" << key << "' can not be used as name for the entry because "
"it is not a valid name. You need to specify a valid name for this entry." << endl;
else
kdError() << "The name '" << name << "' is not a valid name for an entry." << endl;
return 0;
}
if (allNames.contains(name))
{
if (nameIsEmpty)
kdError() << "The key '" << key << "' can not be used as name for the entry because "
"it does not result in a unique name. You need to specify a unique name for this entry." << endl;
else
kdError() << "The name '" << name << "' is not unique." << endl;
return 0;
}
allNames.append(name);
if (!defaultCode)
{
preProcessDefault(defaultValue, name, type, choices, code);
}
CfgEntry *result = new CfgEntry( group, type, key, name, label, whatsThis,
code, defaultValue, choices,
hidden == "true" );
if (!param.isEmpty())
{
result->setParam(param);
result->setParamName(paramName);
result->setParamType(paramType);
result->setParamValues(paramValues);
result->setParamDefaultValues(paramDefaultValues);
result->setParamMax(paramMax);
}
result->setMinValue(minValue);
result->setMaxValue(maxValue);
return result;
}
/**
Return parameter declaration for given type.
*/
TQString param( const TQString &type )
{
if ( type == "String" ) return "const TQString &";
else if ( type == "StringList" ) return "const TQStringList &";
else if ( type == "Font" ) return "const TQFont &";
else if ( type == "Rect" ) return "const TQRect &";
else if ( type == "Size" ) return "const TQSize &";
else if ( type == "Color" ) return "const TQColor &";
else if ( type == "Point" ) return "const TQPoint &";
else if ( type == "Int" ) return "int";
else if ( type == "UInt" ) return "uint";
else if ( type == "Bool" ) return "bool";
else if ( type == "Double" ) return "double";
else if ( type == "DateTime" ) return "const TQDateTime &";
else if ( type == "Int64" ) return "TQ_INT64";
else if ( type == "UInt64" ) return "TQ_UINT64";
else if ( type == "IntList" ) return "const TQValueList<int> &";
else if ( type == "Enum" ) return "int";
else if ( type == "Path" ) return "const TQString &";
else if ( type == "PathList" ) return "const TQStringList &";
else if ( type == "Password" ) return "const TQString &";
else {
kdError() <<"kconfig_compiler does not support type \""<< type <<"\""<<endl;
return TQSTRING_OBJECT_NAME_STRING; //For now, but an assert would be better
}
}
/**
Actual C++ storage type for given type.
*/
TQString cppType( const TQString &type )
{
if ( type == "String" ) return TQSTRING_OBJECT_NAME_STRING;
else if ( type == "StringList" ) return TQSTRINGLIST_OBJECT_NAME_STRING;
else if ( type == "Font" ) return "TQFont";
else if ( type == "Rect" ) return "TQRect";
else if ( type == "Size" ) return "TQSize";
else if ( type == "Color" ) return "TQColor";
else if ( type == "Point" ) return TQPOINT_OBJECT_NAME_STRING;
else if ( type == "Int" ) return "int";
else if ( type == "UInt" ) return "uint";
else if ( type == "Bool" ) return "bool";
else if ( type == "Double" ) return "double";
else if ( type == "DateTime" ) return "TQDateTime";
else if ( type == "Int64" ) return "TQ_INT64";
else if ( type == "UInt64" ) return "TQ_UINT64";
else if ( type == "IntList" ) return "TQValueList<int>";
else if ( type == "Enum" ) return "int";
else if ( type == "Path" ) return TQSTRING_OBJECT_NAME_STRING;
else if ( type == "PathList" ) return TQSTRINGLIST_OBJECT_NAME_STRING;
else if ( type == "Password" ) return TQSTRING_OBJECT_NAME_STRING;
else {
kdError()<<"kconfig_compiler does not support type \""<< type <<"\""<<endl;
return TQSTRING_OBJECT_NAME_STRING; //For now, but an assert would be better
}
}
TQString defaultValue( const TQString &type )
{
if ( type == "String" ) return "\"\""; // Use empty string, not null string!
else if ( type == "StringList" ) return "TQStringList()";
else if ( type == "Font" ) return "KGlobalSettings::generalFont()";
else if ( type == "Rect" ) return "TQRect()";
else if ( type == "Size" ) return "TQSize()";
else if ( type == "Color" ) return "TQColor(128, 128, 128)";
else if ( type == "Point" ) return "TQPoint()";
else if ( type == "Int" ) return "0";
else if ( type == "UInt" ) return "0";
else if ( type == "Bool" ) return "false";
else if ( type == "Double" ) return "0.0";
else if ( type == "DateTime" ) return "TQDateTime()";
else if ( type == "Int64" ) return "0";
else if ( type == "UInt64" ) return "0";
else if ( type == "IntList" ) return "TQValueList<int>()";
else if ( type == "Enum" ) return "0";
else if ( type == "Path" ) return "\"\""; // Use empty string, not null string!
else if ( type == "PathList" ) return "TQStringList()";
else if ( type == "Password" ) return "\"\""; // Use empty string, not null string!
else {
kdWarning()<<"Error, kconfig_compiler doesn't support the \""<< type <<"\" type!"<<endl;
return TQSTRING_OBJECT_NAME_STRING; //For now, but an assert would be better
}
}
TQString itemType( const TQString &type )
{
TQString t;
t = type;
t.replace( 0, 1, t.left( 1 ).upper() );
return t;
}
static TQString itemDeclaration(const CfgEntry *e)
{
if (itemAccessors)
return TQString();
TQString fCap = e->name();
fCap[0] = fCap[0].upper();
return " KConfigSkeleton::Item"+itemType( e->type() ) +
" *item" + fCap +
( (!e->param().isEmpty())?(TQString("[%1]").arg(e->paramMax()+1)) : TQString()) +
";\n";
}
// returns the name of an item variable
// use itemPath to know the full path
// like using d-> in case of dpointer
static TQString itemVar(const CfgEntry *e)
{
TQString result;
if (itemAccessors)
{
if ( !dpointer )
{
result = "m" + e->name() + "Item";
result[1] = result[1].upper();
}
else
{
result = e->name() + "Item";
result[0] = result[0].lower();
}
}
else
{
result = "item" + e->name();
result[4] = result[4].upper();
}
return result;
}
static TQString itemPath(const CfgEntry *e)
{
TQString result;
if ( dpointer ) {
result = "d->"+itemVar(e);
}
else {
result = itemVar(e);
}
return result;
}
TQString newItem( const TQString &type, const TQString &name, const TQString &key,
const TQString &defaultValue, const TQString &param = TQString())
{
TQString t = "new KConfigSkeleton::Item" + itemType( type ) +
"( currentGroup(), " + key + ", " + varPath( name ) + param;
if ( type == "Enum" ) t += ", values" + name;
if ( !defaultValue.isEmpty() ) {
t += ", ";
if ( type == "String" ) t += defaultValue;
else t+= defaultValue;
}
t += " );";
return t;
}
TQString paramString(const TQString &s, const CfgEntry *e, int i)
{
TQString result = s;
TQString needle = "$("+e->param()+")";
if (result.contains(needle))
{
TQString tmp;
if (e->paramType() == "Enum")
{
tmp = e->paramValues()[i];
}
else
{
tmp = TQString::number(i);
}
result.replace(needle, tmp);
}
return result;
}
TQString paramString(const TQString &group, const TQValueList<Param> &parameters)
{
TQString paramString = group;
TQString arguments;
int i = 1;
for (TQValueList<Param>::ConstIterator it = parameters.begin();
it != parameters.end(); ++it)
{
if (paramString.contains("$("+(*it).name+")"))
{
TQString tmp;
tmp.sprintf("%%%d", i++);
paramString.replace("$("+(*it).name+")", tmp);
arguments += ".arg( mParam"+(*it).name+" )";
}
}
if (arguments.isEmpty())
return "TQString::tqfromLatin1( \""+group+"\" )";
return "TQString::tqfromLatin1( \""+paramString+"\" )"+arguments;
}
/* int i is the value of the parameter */
TQString userTextsFunctions( CfgEntry *e, TQString itemVarStr=TQString(), TQString i=TQString() )
{
TQString txt;
if (itemVarStr.isNull()) itemVarStr=itemPath(e);
if ( !e->label().isEmpty() ) {
txt += " " + itemVarStr + "->setLabel( i18n(";
if ( !e->param().isEmpty() )
txt += quoteString(e->label().replace("$("+e->param()+")", i));
else
txt+= quoteString(e->label());
txt+= ") );\n";
}
if ( !e->whatsThis().isEmpty() ) {
txt += " " + itemVarStr + "->setWhatsThis( i18n(";
if ( !e->param().isEmpty() )
txt += quoteString(e->whatsThis().replace("$("+e->param()+")", i));
else
txt+= quoteString(e->whatsThis());
txt+=") );\n";
}
return txt;
}
// returns the member accesor implementation
// which should go in the h file if inline
// or the cpp file if not inline
TQString memberAccessorBody( CfgEntry *e )
{
TQString result;
TQTextStream out(&result, IO_WriteOnly);
TQString n = e->name();
TQString t = e->type();
out << "return " << This << varPath(n);
if (!e->param().isEmpty()) out << "[i]";
out << ";" << endl;
return result;
}
// returns the member mutator implementation
// which should go in the h file if inline
// or the cpp file if not inline
TQString memberMutatorBody( CfgEntry *e )
{
TQString result;
TQTextStream out(&result, IO_WriteOnly);
TQString n = e->name();
TQString t = e->type();
if (!e->minValue().isEmpty())
{
out << "if (v < " << e->minValue() << ")" << endl;
out << "{" << endl;
out << " kdDebug() << \"" << setFunction(n);
out << ": value \" << v << \" is less than the minimum value of ";
out << e->minValue()<< "\" << endl;" << endl;
out << " v = " << e->minValue() << ";" << endl;
out << "}" << endl;
}
if (!e->maxValue().isEmpty())
{
out << endl << "if (v > " << e->maxValue() << ")" << endl;
out << "{" << endl;
out << " kdDebug() << \"" << setFunction(n);
out << ": value \" << v << \" is greater than the maximum value of ";
out << e->maxValue()<< "\" << endl;" << endl;
out << " v = " << e->maxValue() << ";" << endl;
out << "}" << endl << endl;
}
out << "if (!" << This << "isImmutable( TQString::tqfromLatin1( \"";
if (!e->param().isEmpty())
{
out << e->paramName().replace("$("+e->param()+")", "%1") << "\" ).arg( ";
if ( e->paramType() == "Enum" ) {
out << "TQString::tqfromLatin1( ";
if (globalEnums)
out << enumName(e->param()) << "ToString[i]";
else
out << enumName(e->param()) << "::enumToString[i]";
out << " )";
}
else
{
out << "i";
}
out << " )";
}
else
{
out << n << "\" )";
}
out << " ))" << endl;
out << " " << This << varPath(n);
if (!e->param().isEmpty())
out << "[i]";
out << " = v;" << endl;
return result;
}
// returns the item accesor implementation
// which should go in the h file if inline
// or the cpp file if not inline
TQString itemAccessorBody( CfgEntry *e )
{
TQString result;
TQTextStream out(&result, IO_WriteOnly);
out << "return " << itemPath(e);
if (!e->param().isEmpty()) out << "[i]";
out << ";" << endl;
return result;
}
//indents text adding X spaces per line
TQString indent(TQString text, int spaces)
{
TQString result;
TQTextStream out(&result, IO_WriteOnly);
TQTextStream in(&text, IO_ReadOnly);
TQString currLine;
while ( !in.atEnd() )
{
currLine = in.readLine();
if (!currLine.isEmpty())
for (int i=0; i < spaces; i++)
out << " ";
out << currLine << endl;
}
return result;
}
int main( int argc, char **argv )
{
KAboutData aboutData( "kconfig_compiler", I18N_NOOP("KDE .kcfg compiler"), "0.3",
I18N_NOOP("KConfig Compiler") , KAboutData::License_LGPL );
aboutData.addAuthor( "Cornelius Schumacher", 0, "schumacher@kde.org" );
aboutData.addAuthor( "Waldo Bastian", 0, "bastian@kde.org" );
aboutData.addAuthor( "Zack Rusin", 0, "zack@kde.org" );
aboutData.addCredit( "Reinhold Kainhofer", "Fix for parametrized entries",
"reinhold@kainhofer.com", "http://reinhold.kainhofer.com" );
aboutData.addCredit( "Duncan Mac-Vicar P.", "dpointer support",
"duncan@kde.org", "http://www.mac-vicar.com/~duncan" );
KCmdLineArgs::init( argc, argv, &aboutData );
KCmdLineArgs::addCmdLineOptions( options );
KInstance app( &aboutData );
KCmdLineArgs *args = KCmdLineArgs::parsedArgs();
if ( args->count() < 2 ) {
kdError() << "Too few arguments." << endl;
return 1;
}
if ( args->count() > 2 ) {
kdError() << "Too many arguments." << endl;
return 1;
}
validNameRegexp = new TQRegExp("[a-zA-Z_][a-zA-Z0-9_]*");
TQString baseDir = TQFile::decodeName(args->getOption("directory"));
if (!baseDir.endsWith("/"))
baseDir.append("/");
TQString inputFilename = args->url( 0 ).path();
TQString codegenFilename = args->url( 1 ).path();
if (!codegenFilename.endsWith(".kcfgc"))
{
kdError() << "Codegen options file must have extension .kcfgc" << endl;
return 1;
}
TQString baseName = args->url( 1 ).fileName();
baseName = baseName.left(baseName.length() - 6);
KSimpleConfig codegenConfig( codegenFilename, true );
TQString nameSpace = codegenConfig.readEntry("NameSpace");
TQString className = codegenConfig.readEntry("ClassName");
TQString inherits = codegenConfig.readEntry("Inherits");
TQString visibility = codegenConfig.readEntry("Visibility");
if (!visibility.isEmpty()) visibility+=" ";
bool singleton = codegenConfig.readBoolEntry("Singleton", false);
bool staticAccessors = singleton;
//bool useDPointer = codegenConfig.readBoolEntry("DPointer", false);
bool customAddons = codegenConfig.readBoolEntry("CustomAdditions");
TQString memberVariables = codegenConfig.readEntry("MemberVariables");
TQStringList headerIncludes = codegenConfig.readListEntry("IncludeFiles");
TQStringList mutators = codegenConfig.readListEntry("Mutators");
bool allMutators = false;
if ((mutators.count() == 1) && (mutators[0].lower() == "true"))
allMutators = true;
itemAccessors = codegenConfig.readBoolEntry( "ItemAccessors", false );
bool setUserTexts = codegenConfig.readBoolEntry( "SetUserTexts", false );
globalEnums = codegenConfig.readBoolEntry( "GlobalEnums", false );
dpointer = (memberVariables == "dpointer");
TQFile input( inputFilename );
TQDomDocument doc;
TQString errorMsg;
int errorRow;
int errorCol;
if ( !doc.setContent( &input, &errorMsg, &errorRow, &errorCol ) ) {
kdError() << "Unable to load document." << endl;
kdError() << "Parse error in " << args->url( 0 ).fileName() << ", line " << errorRow << ", col " << errorCol << ": " << errorMsg << endl;
return 1;
}
TQDomElement cfgElement = doc.documentElement();
if ( cfgElement.isNull() ) {
kdError() << "No document in kcfg file" << endl;
return 1;
}
TQString cfgFileName;
bool cfgFileNameArg = false;
TQValueList<Param> parameters;
TQStringList includes;
TQPtrList<CfgEntry> entries;
entries.setAutoDelete( true );
TQDomNode n;
for ( n = cfgElement.firstChild(); !n.isNull(); n = n.nextSibling() ) {
TQDomElement e = n.toElement();
TQString tag = e.tagName();
if ( tag == "include" ) {
TQString includeFile = e.text();
if (!includeFile.isEmpty())
includes.append(includeFile);
} else if ( tag == "kcfgfile" ) {
cfgFileName = e.attribute( "name" );
cfgFileNameArg = e.attribute( "arg" ).lower() == "true";
TQDomNode n2;
for( n2 = e.firstChild(); !n2.isNull(); n2 = n2.nextSibling() ) {
TQDomElement e2 = n2.toElement();
if ( e2.tagName() == "parameter" ) {
Param p;
p.name = e2.attribute( "name" );
p.type = e2.attribute( "type" );
if (p.type.isEmpty())
p.type = "String";
parameters.append( p );
}
}
} else if ( tag == "group" ) {
TQString group = e.attribute( "name" );
if ( group.isEmpty() ) {
kdError() << "Group without name" << endl;
return 1;
}
TQDomNode n2;
for( n2 = e.firstChild(); !n2.isNull(); n2 = n2.nextSibling() ) {
TQDomElement e2 = n2.toElement();
if ( e2.tagName() != "entry" ) continue;
CfgEntry *entry = parseEntry( group, e2 );
if ( entry ) entries.append( entry );
else {
kdError() << "Can't parse entry." << endl;
return 1;
}
}
}
}
if ( inherits.isEmpty() ) inherits = "KConfigSkeleton";
if ( className.isEmpty() ) {
kdError() << "Class name missing" << endl;
return 1;
}
if ( singleton && !parameters.isEmpty() ) {
kdError() << "Singleton class can not have parameters" << endl;
return 1;
}
if ( !cfgFileName.isEmpty() && cfgFileNameArg)
{
kdError() << "Having both a fixed filename and a filename as argument is not possible." << endl;
return 1;
}
if ( entries.isEmpty() ) {
kdWarning() << "No entries." << endl;
}
#if 0
CfgEntry *cfg;
for( cfg = entries.first(); cfg; cfg = entries.next() ) {
cfg->dump();
}
#endif
TQString headerFileName = baseName + ".h";
TQString implementationFileName = baseName + ".cpp";
TQString cppPreamble; // code to be inserted at the beginnin of the cpp file, e.g. initialization of static values
TQFile header( baseDir + headerFileName );
if ( !header.open( IO_WriteOnly ) ) {
kdError() << "Can't open '" << headerFileName << "' for writing." << endl;
return 1;
}
TQTextStream h( &header );
h << "// This file is generated by kconfig_compiler from " << args->url(0).fileName() << "." << endl;
h << "// All changes you do to this file will be lost." << endl;
h << "#ifndef " << ( !nameSpace.isEmpty() ? nameSpace.upper() + "_" : "" )
<< className.upper() << "_H" << endl;
h << "#define " << ( !nameSpace.isEmpty() ? nameSpace.upper() + "_" : "" )
<< className.upper() << "_H" << endl << endl;
// Includes
TQStringList::ConstIterator it;
for( it = headerIncludes.begin(); it != headerIncludes.end(); ++it ) {
h << "#include <" << *it << ">" << endl;
}
if ( headerIncludes.count() > 0 ) h << endl;
if ( !singleton && cfgFileNameArg && parameters.isEmpty() )
h << "#include <kglobal.h>" << endl;
h << "#include <kconfigskeleton.h>" << endl;
h << "#include <kdebug.h>" << endl << endl;
// Includes
for( it = includes.begin(); it != includes.end(); ++it ) {
h << "#include <" << *it << ">" << endl;
}
if ( !nameSpace.isEmpty() )
h << "namespace " << nameSpace << " {" << endl << endl;
// Private class declaration
if ( dpointer )
h << "class " << className << "Private;" << endl << endl;
// Class declaration header
h << "class " << visibility << className << " : public " << inherits << endl;
h << "{" << endl;
h << " public:" << endl;
// enums
CfgEntry *e;
for( e = entries.first(); e; e = entries.next() ) {
TQValueList<CfgEntry::Choice> choices = e->choices();
if ( !choices.isEmpty() ) {
TQStringList values;
TQValueList<CfgEntry::Choice>::ConstIterator itChoice;
for( itChoice = choices.begin(); itChoice != choices.end(); ++itChoice ) {
values.append( (*itChoice).name );
}
if ( globalEnums ) {
h << " enum { " << values.join( ", " ) << " };" << endl;
} else {
h << " class " << enumName(e->name()) << endl;
h << " {" << endl;
h << " public:" << endl;
h << " enum type { " << values.join( ", " ) << ", COUNT };" << endl;
h << " };" << endl;
}
}
TQStringList values = e->paramValues();
if ( !values.isEmpty() ) {
if ( globalEnums ) {
h << " enum { " << values.join( ", " ) << " };" << endl;
h << " static const char* const " << enumName(e->param()) << "ToString[];" << endl;
cppPreamble += "const char* const " + className + "::" + enumName(e->param()) + "ToString[] = " +
"{ \"" + values.join( "\", \"" ) + "\" };\n";
} else {
h << " class " << enumName(e->param()) << endl;
h << " {" << endl;
h << " public:" << endl;
h << " enum type { " << values.join( ", " ) << ", COUNT };" << endl;
h << " static const char* const enumToString[];" << endl;
h << " };" << endl;
cppPreamble += "const char* const " + className + "::" + enumName(e->param()) + "::enumToString[] = " +
"{ \"" + values.join( "\", \"" ) + "\" };\n";
}
}
}
h << endl;
// Constructor or singleton accessor
if ( !singleton ) {
h << " " << className << "(";
if (cfgFileNameArg)
h << " KSharedConfig::Ptr config" << (parameters.isEmpty() ? " = KGlobal::sharedConfig()" : ", ");
for (TQValueList<Param>::ConstIterator it = parameters.begin();
it != parameters.end(); ++it)
{
if (it != parameters.begin())
h << ",";
h << " " << param((*it).type) << " " << (*it).name;
}
h << " );" << endl;
} else {
h << " static " << className << " *self();" << endl;
if (cfgFileNameArg)
h << " static void instance(const char * cfgfilename);" << endl;
}
// Destructor
h << " ~" << className << "();" << endl << endl;
// global variables
if (staticAccessors)
This = "self()->";
else
Const = " const";
for( e = entries.first(); e; e = entries.next() ) {
TQString n = e->name();
TQString t = e->type();
// Manipulator
if (allMutators || mutators.contains(n))
{
h << " /**" << endl;
h << " Set " << e->label() << endl;
h << " */" << endl;
if (staticAccessors)
h << " static" << endl;
h << " void " << setFunction(n) << "( ";
if (!e->param().isEmpty())
h << cppType(e->paramType()) << " i, ";
h << param( t ) << " v )";
// function body inline only if not using dpointer
// for BC mode
if ( !dpointer )
{
h << endl << " {" << endl;
h << indent(memberMutatorBody(e), 6 );
h << " }" << endl;
}
else
{
h << ";" << endl;
}
}
h << endl;
// Accessor
h << " /**" << endl;
h << " Get " << e->label() << endl;
h << " */" << endl;
if (staticAccessors)
h << " static" << endl;
h << " " << cppType(t) << " " << getFunction(n) << "(";
if (!e->param().isEmpty())
h << " " << cppType(e->paramType()) <<" i ";
h << ")" << Const;
// function body inline only if not using dpointer
// for BC mode
if ( !dpointer )
{
h << endl << " {" << endl;
h << indent(memberAccessorBody(e), 6 );
h << " }" << endl;
}
else
{
h << ";" << endl;
}
// Item accessor
if ( itemAccessors ) {
h << endl;
h << " /**" << endl;
h << " Get Item object corresponding to " << n << "()"
<< endl;
h << " */" << endl;
h << " Item" << itemType( e->type() ) << " *"
<< getFunction( n ) << "Item(";
if (!e->param().isEmpty()) {
h << " " << cppType(e->paramType()) << " i ";
}
h << ")";
if (! dpointer )
{
h << endl << " {" << endl;
h << indent( itemAccessorBody(e), 6);
h << " }" << endl;
}
else
{
h << ";" << endl;
}
}
h << endl;
}
// Static writeConfig method for singleton
if ( singleton ) {
h << " static" << endl;
h << " void writeConfig()" << endl;
h << " {" << endl;
h << " static_cast<KConfigSkeleton*>(self())->writeConfig();" << endl;
h << " }" << endl;
}
h << " protected:" << endl;
// Private constructor for singleton
if ( singleton ) {
h << " " << className << "(";
if ( cfgFileNameArg )
h << "const char *arg";
h << ");" << endl;
h << " static " << className << " *mSelf;" << endl << endl;
}
// Member variables
if ( !memberVariables.isEmpty() && memberVariables != "private" && memberVariables != "dpointer") {
h << " " << memberVariables << ":" << endl;
}
// Class Parameters
for (TQValueList<Param>::ConstIterator it = parameters.begin();
it != parameters.end(); ++it)
{
h << " " << cppType((*it).type) << " mParam" << (*it).name << ";" << endl;
}
if ( memberVariables != "dpointer" )
{
TQString group;
for( e = entries.first(); e; e = entries.next() ) {
if ( e->group() != group ) {
group = e->group();
h << endl;
h << " // " << group << endl;
}
h << " " << cppType(e->type()) << " " << varName(e->name());
if (!e->param().isEmpty())
{
h << TQString("[%1]").arg(e->paramMax()+1);
}
h << ";" << endl;
}
h << endl << " private:" << endl;
if ( itemAccessors ) {
for( e = entries.first(); e; e = entries.next() ) {
h << " Item" << itemType( e->type() ) << " *" << itemVar( e );
if (!e->param().isEmpty() ) h << TQString("[%1]").arg( e->paramMax()+1 );
h << ";" << endl;
}
}
}
else
{
// use a private class for both member variables and items
h << " private:" << endl;
h << " " + className + "Private *d;" << endl;
}
if (customAddons)
{
h << " // Include custom additions" << endl;
h << " #include \"" << filenameOnly(baseName) << "_addons.h\"" <<endl;
}
h << "};" << endl << endl;
if ( !nameSpace.isEmpty() ) h << "}" << endl << endl;
h << "#endif" << endl << endl;
header.close();
TQFile implementation( baseDir + implementationFileName );
if ( !implementation.open( IO_WriteOnly ) ) {
kdError() << "Can't open '" << implementationFileName << "' for writing."
<< endl;
return 1;
}
TQTextStream cpp( &implementation );
cpp << "// This file is generated by kconfig_compiler from " << args->url(0).fileName() << "." << endl;
cpp << "// All changes you do to this file will be lost." << endl << endl;
cpp << "#include \"" << headerFileName << "\"" << endl << endl;
if ( setUserTexts ) cpp << "#include <klocale.h>" << endl << endl;
// Header required by singleton implementation
if ( singleton )
cpp << "#include <kstaticdeleter.h>" << endl << endl;
if ( singleton && cfgFileNameArg )
cpp << "#include <kdebug.h>" << endl << endl;
if ( !nameSpace.isEmpty() )
cpp << "using namespace " << nameSpace << ";" << endl << endl;
TQString group;
// private class implementation
if ( dpointer )
{
cpp << "class " << className << "Private" << endl;
cpp << "{" << endl;
cpp << " public:" << endl;
for( e = entries.first(); e; e = entries.next() ) {
if ( e->group() != group ) {
group = e->group();
cpp << endl;
cpp << " // " << group << endl;
}
cpp << " " << cppType(e->type()) << " " << varName(e->name());
if (!e->param().isEmpty())
{
cpp << TQString("[%1]").arg(e->paramMax()+1);
}
cpp << ";" << endl;
}
cpp << endl << " // items" << endl;
for( e = entries.first(); e; e = entries.next() ) {
cpp << " KConfigSkeleton::Item" << itemType( e->type() ) << " *" << itemVar( e );
if (!e->param().isEmpty() ) cpp << TQString("[%1]").arg( e->paramMax()+1 );
cpp << ";" << endl;
}
cpp << "};" << endl << endl;
}
// Singleton implementation
if ( singleton ) {
cpp << className << " *" << className << "::mSelf = 0;" << endl;
cpp << "static KStaticDeleter<" << className << "> static" << className << "Deleter;" << endl << endl;
cpp << className << " *" << className << "::self()" << endl;
cpp << "{" << endl;
if ( cfgFileNameArg ) {
cpp << " if (!mSelf)" << endl;
cpp << " kdFatal() << \"you need to call " << className << "::instance before using\" << endl;" << endl;
} else {
cpp << " if ( !mSelf ) {" << endl;
cpp << " static" << className << "Deleter.setObject( mSelf, new " << className << "() );" << endl;
cpp << " mSelf->readConfig();" << endl;
cpp << " }" << endl << endl;
}
cpp << " return mSelf;" << endl;
cpp << "}" << endl << endl;
if ( cfgFileNameArg ) {
cpp << "void " << className << "::instance(const char *cfgfilename)" << endl;
cpp << "{" << endl;
cpp << " if (mSelf) {" << endl;
cpp << " kdError() << \"" << className << "::instance called after the first use - ignoring\" << endl;" << endl;
cpp << " return;" << endl;
cpp << " }" << endl;
cpp << " static" << className << "Deleter.setObject( mSelf, new " << className << "(cfgfilename) );" << endl;
cpp << " mSelf->readConfig();" << endl;
cpp << "}" << endl << endl;
}
}
if ( !cppPreamble.isEmpty() )
cpp << cppPreamble << endl;
// Constructor
cpp << className << "::" << className << "( ";
if ( cfgFileNameArg ) {
if ( !singleton )
cpp << " KSharedConfig::Ptr config";
else
cpp << " const char *config";
cpp << (parameters.isEmpty() ? " " : ", ");
}
for (TQValueList<Param>::ConstIterator it = parameters.begin();
it != parameters.end(); ++it)
{
if (it != parameters.begin())
cpp << ",";
cpp << " " << param((*it).type) << " " << (*it).name;
}
cpp << " )" << endl;
cpp << " : " << inherits << "(";
if ( !cfgFileName.isEmpty() ) cpp << " TQString::tqfromLatin1( \"" << cfgFileName << "\" ";
if ( cfgFileNameArg ) cpp << " config ";
if ( !cfgFileName.isEmpty() ) cpp << ") ";
cpp << ")" << endl;
// Store parameters
for (TQValueList<Param>::ConstIterator it = parameters.begin();
it != parameters.end(); ++it)
{
cpp << " , mParam" << (*it).name << "(" << (*it).name << ")" << endl;
}
cpp << "{" << endl;
if (dpointer)
cpp << " d = new " + className + "Private;" << endl;
// Needed in case the singleton class is used as baseclass for
// another singleton.
if ( singleton )
cpp << " mSelf = this;" << endl;
group = TQString();
for( e = entries.first(); e; e = entries.next() ) {
if ( e->group() != group ) {
if ( !group.isEmpty() ) cpp << endl;
group = e->group();
cpp << " setCurrentGroup( " << paramString(group, parameters) << " );" << endl << endl;
}
TQString key = paramString(e->key(), parameters);
if ( !e->code().isEmpty())
{
cpp << e->code() << endl;
}
if ( e->type() == "Enum" ) {
cpp << " TQValueList<KConfigSkeleton::ItemEnum::Choice> values"
<< e->name() << ";" << endl;
TQValueList<CfgEntry::Choice> choices = e->choices();
TQValueList<CfgEntry::Choice>::ConstIterator it;
for( it = choices.begin(); it != choices.end(); ++it ) {
cpp << " {" << endl;
cpp << " KConfigSkeleton::ItemEnum::Choice choice;" << endl;
cpp << " choice.name = TQString::tqfromLatin1( \"" << (*it).name << "\" );" << endl;
if ( setUserTexts ) {
if ( !(*it).label.isEmpty() )
cpp << " choice.label = i18n(" << quoteString((*it).label) << ");" << endl;
if ( !(*it).whatsThis.isEmpty() )
cpp << " choice.whatsThis = i18n(" << quoteString((*it).whatsThis) << ");" << endl;
}
cpp << " values" << e->name() << ".append( choice );" << endl;
cpp << " }" << endl;
}
}
if (!dpointer)
cpp << itemDeclaration(e);
if (e->param().isEmpty())
{
// Normal case
cpp << " " << itemPath(e) << " = "
<< newItem( e->type(), e->name(), key, e->defaultValue() ) << endl;
if ( !e->minValue().isEmpty() )
cpp << " " << itemPath(e) << "->setMinValue(" << e->minValue() << ");" << endl;
if ( !e->maxValue().isEmpty() )
cpp << " " << itemPath(e) << "->setMaxValue(" << e->maxValue() << ");" << endl;
if ( setUserTexts )
cpp << userTextsFunctions( e );
cpp << " addItem( " << itemPath(e);
TQString quotedName = e->name();
addQuotes( quotedName );
if ( quotedName != key ) cpp << ", TQString::tqfromLatin1( \"" << e->name() << "\" )";
cpp << " );" << endl;
}
else
{
// Indexed
for(int i = 0; i <= e->paramMax(); i++)
{
TQString defaultStr;
TQString itemVarStr(itemPath(e)+TQString("[%1]").arg(i));
if ( !e->paramDefaultValue(i).isEmpty() )
defaultStr = e->paramDefaultValue(i);
else if ( !e->defaultValue().isEmpty() )
defaultStr = paramString(e->defaultValue(), e, i);
else
defaultStr = defaultValue( e->type() );
cpp << " " << itemVarStr << " = "
<< newItem( e->type(), e->name(), paramString(key, e, i), defaultStr, TQString("[%1]").arg(i) )
<< endl;
if ( setUserTexts )
cpp << userTextsFunctions( e, itemVarStr, e->paramName() );
// Make mutators for enum parameters work by adding them with $(..) replaced by the
// param name. The check for isImmutable in the set* functions doesn't have the param
// name available, just the corresponding enum value (int), so we need to store the
// param names in a separate static list!.
cpp << " addItem( " << itemVarStr << ", TQString::tqfromLatin1( \"";
if ( e->paramType()=="Enum" )
cpp << e->paramName().replace( "$("+e->param()+")", "%1").arg(e->paramValues()[i] );
else
cpp << e->paramName().replace( "$("+e->param()+")", "%1").arg(i);
cpp << "\" ) );" << endl;
}
}
}
cpp << "}" << endl << endl;
if (dpointer)
{
// setters and getters go in Cpp if in dpointer mode
for( e = entries.first(); e; e = entries.next() )
{
TQString n = e->name();
TQString t = e->type();
// Manipulator
if (allMutators || mutators.contains(n))
{
cpp << "void " << setFunction(n, className) << "( ";
if (!e->param().isEmpty())
cpp << cppType(e->paramType()) << " i, ";
cpp << param( t ) << " v )" << endl;
// function body inline only if not using dpointer
// for BC mode
cpp << "{" << endl;
cpp << indent(memberMutatorBody(e), 6);
cpp << "}" << endl << endl;
}
// Accessor
cpp << cppType(t) << " " << getFunction(n, className) << "(";
if (!e->param().isEmpty())
cpp << " " << cppType(e->paramType()) <<" i ";
cpp << ")" << Const << endl;
// function body inline only if not using dpointer
// for BC mode
cpp << "{" << endl;
cpp << indent(memberAccessorBody(e), 2);
cpp << "}" << endl << endl;
// Item accessor
if ( itemAccessors )
{
cpp << endl;
cpp << "KConfigSkeleton::Item" << itemType( e->type() ) << " *"
<< getFunction( n, className ) << "Item(";
if (!e->param().isEmpty()) {
cpp << " " << cppType(e->paramType()) << " i ";
}
cpp << ")" << endl;
cpp << "{" << endl;
cpp << indent(itemAccessorBody(e), 2);
cpp << "}" << endl;
}
cpp << endl;
}
}
// Destructor
cpp << className << "::~" << className << "()" << endl;
cpp << "{" << endl;
if ( singleton ) {
if ( dpointer )
cpp << " delete d;" << endl;
cpp << " if ( mSelf == this )" << endl;
cpp << " static" << className << "Deleter.setObject( mSelf, 0, false );" << endl;
}
cpp << "}" << endl << endl;
implementation.close();
}