2009-11-10 10:07:29 +01:00
/*
2010-02-18 07:03:55 +01:00
* Copyright ( C ) 2002 - 2010 The DOSBox Team
2009-11-10 10:07:29 +01:00
*
* This program is free software ; you can redistribute it and / or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation ; either version 2 of the License , or
* ( at your option ) any later version .
*
* This program is distributed in the hope that it will be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
* GNU General Public License for more details .
*
* You should have received a copy of the GNU General Public License
* along with this program ; if not , write to the Free Software
* Foundation , Inc . , 59 Temple Place - Suite 330 , Boston , MA 02111 - 1307 , USA .
*/
/* $Id: setup.cpp,v 1.56 2009-05-27 09:15:42 qbix79 Exp $ */
# include "dosbox.h"
# include "cross.h"
# include "setup.h"
# include "control.h"
# include "support.h"
# include <fstream>
# include <string>
# include <sstream>
# include <list>
# include <stdlib.h>
# include <stdio.h>
using namespace std ;
static std : : string current_config_dir ; // Set by parseconfigfile so Prop_path can use it to construct the realpath
void Value : : destroy ( ) throw ( ) {
if ( type = = V_STRING ) delete _string ;
}
Value & Value : : copy ( Value const & in ) throw ( WrongType ) {
if ( this ! = & in ) { //Selfassigment!
if ( type ! = V_NONE & & type ! = in . type ) throw WrongType ( ) ;
destroy ( ) ;
plaincopy ( in ) ;
}
return * this ;
}
void Value : : plaincopy ( Value const & in ) throw ( ) {
type = in . type ;
_int = in . _int ;
_double = in . _double ;
_bool = in . _bool ;
_hex = in . _hex ;
if ( type = = V_STRING ) _string = new string ( * in . _string ) ;
}
Value : : operator bool ( ) const throw ( WrongType ) {
if ( type ! = V_BOOL ) throw WrongType ( ) ;
return _bool ;
}
Value : : operator Hex ( ) const throw ( WrongType ) {
if ( type ! = V_HEX ) throw WrongType ( ) ;
return _hex ;
}
Value : : operator int ( ) const throw ( WrongType ) {
if ( type ! = V_INT ) throw WrongType ( ) ;
return _int ;
}
Value : : operator double ( ) const throw ( WrongType ) {
if ( type ! = V_DOUBLE ) throw WrongType ( ) ;
return _double ;
}
Value : : operator char const * ( ) const throw ( WrongType ) {
if ( type ! = V_STRING ) throw WrongType ( ) ;
return _string - > c_str ( ) ;
}
bool Value : : operator = = ( Value const & other ) {
if ( this = = & other ) return true ;
if ( type ! = other . type ) return false ;
switch ( type ) {
case V_BOOL :
if ( _bool = = other . _bool ) return true ;
break ;
case V_INT :
if ( _int = = other . _int ) return true ;
break ;
case V_HEX :
if ( _hex = = other . _hex ) return true ;
break ;
case V_DOUBLE :
if ( _double = = other . _double ) return true ;
break ;
case V_STRING :
if ( ( * _string ) = = ( * other . _string ) ) return true ;
break ;
default :
E_Exit ( " comparing stuff that doesn't make sense " ) ;
break ;
}
return false ;
}
void Value : : SetValue ( string const & in , Etype _type ) throw ( WrongType ) {
/* Throw exception if the current type isn't the wanted type
* Unless the wanted type is current .
*/
if ( _type = = V_CURRENT & & type = = V_NONE ) throw WrongType ( ) ;
if ( _type ! = V_CURRENT ) {
if ( type ! = V_NONE & & type ! = _type ) throw WrongType ( ) ;
type = _type ;
}
switch ( type ) {
case V_HEX :
set_hex ( in ) ;
break ;
case V_INT :
set_int ( in ) ;
break ;
case V_BOOL :
set_bool ( in ) ;
break ;
case V_STRING :
set_string ( in ) ;
break ;
case V_DOUBLE :
set_double ( in ) ;
break ;
case V_NONE :
case V_CURRENT :
default :
/* Shouldn't happen!/Unhandled */
throw WrongType ( ) ;
break ;
}
}
void Value : : set_hex ( std : : string const & in ) {
istringstream input ( in ) ;
input . flags ( ios : : hex ) ;
int result = 0 ;
input > > result ;
_hex = result ;
}
void Value : : set_int ( string const & in ) {
istringstream input ( in ) ;
int result = 0 ;
input > > result ;
_int = result ;
}
void Value : : set_double ( string const & in ) {
istringstream input ( in ) ;
double result = 0 ;
input > > result ;
_double = result ;
}
void Value : : set_bool ( string const & in ) {
istringstream input ( in ) ;
string result ;
input > > result ;
_bool = true ;
lowcase ( result ) ;
/* valid false entries: 0 ,d*, f*, off everything else gets true */
if ( ! result . size ( ) ) return ;
if ( result [ 0 ] = = ' 0 ' | | result [ 0 ] = = ' d ' | | result [ 0 ] = = ' f ' | | result = = " off " )
_bool = false ;
}
void Value : : set_string ( string const & in ) {
if ( ! _string ) _string = new string ( ) ;
_string - > assign ( in ) ;
}
string Value : : ToString ( ) const {
ostringstream oss ;
switch ( type ) {
case V_HEX :
oss . flags ( ios : : hex ) ;
oss < < _hex ;
break ;
case V_INT :
oss < < _int ;
break ;
case V_BOOL :
oss < < boolalpha < < _bool ;
break ;
case V_STRING :
oss < < * _string ;
break ;
case V_DOUBLE :
oss . precision ( 2 ) ;
oss < < fixed < < _double ;
break ;
case V_NONE :
case V_CURRENT :
default :
E_Exit ( " ToString messed up ? " ) ;
break ;
}
return oss . str ( ) ;
}
bool Property : : CheckValue ( Value const & in , bool warn ) {
if ( suggested_values . empty ( ) ) return true ;
for ( iter it = suggested_values . begin ( ) ; it ! = suggested_values . end ( ) ; it + + ) {
if ( ( * it ) = = in ) { //Match!
return true ;
}
}
if ( warn ) LOG_MSG ( " \" %s \" is not a valid value for variable: %s. \n It might now be reset it to default value: %s " , in . ToString ( ) . c_str ( ) , propname . c_str ( ) , default_value . ToString ( ) . c_str ( ) ) ;
return false ;
}
void Property : : Set_help ( string const & in ) {
string result = string ( " CONFIG_ " ) + propname ;
upcase ( result ) ;
MSG_Add ( result . c_str ( ) , in . c_str ( ) ) ;
}
char const * Property : : Get_help ( ) {
string result = string ( " CONFIG_ " ) + propname ;
upcase ( result ) ;
return MSG_Get ( result . c_str ( ) ) ;
}
bool Prop_int : : CheckValue ( Value const & in , bool warn ) {
if ( suggested_values . empty ( ) & & Property : : CheckValue ( in , warn ) ) return true ;
//No >= and <= in Value type and == is ambigious
int mi = min ;
int ma = max ;
int va = static_cast < int > ( Value ( in ) ) ;
if ( mi = = - 1 & & ma = = - 1 ) return true ;
if ( va > = mi & & va < = ma ) return true ;
if ( warn ) LOG_MSG ( " %s lies outside the range %s-%s for variable: %s. \n It might now be reset to the default value: %s " , in . ToString ( ) . c_str ( ) , min . ToString ( ) . c_str ( ) , max . ToString ( ) . c_str ( ) , propname . c_str ( ) , default_value . ToString ( ) . c_str ( ) ) ;
return false ;
}
void Prop_double : : SetValue ( std : : string const & input ) {
Value val ( input , Value : : V_DOUBLE ) ;
SetVal ( val , false , true ) ;
}
//void Property::SetValue(char* input){
// value.SetValue(input, Value::V_CURRENT);
//}
void Prop_int : : SetValue ( std : : string const & input ) { ;
Value val ( input , Value : : V_INT ) ;
SetVal ( val , false , true ) ;
}
void Prop_string : : SetValue ( std : : string const & input ) {
//Special version for lowcase stuff
std : : string temp ( input ) ;
//suggested values always case insensitive.
//If there are none then it can be paths and such which are case sensitive
if ( ! suggested_values . empty ( ) ) lowcase ( temp ) ;
Value val ( temp , Value : : V_STRING ) ;
SetVal ( val , false , true ) ;
}
bool Prop_string : : CheckValue ( Value const & in , bool warn ) {
if ( suggested_values . empty ( ) ) return true ;
for ( iter it = suggested_values . begin ( ) ; it ! = suggested_values . end ( ) ; it + + ) {
if ( ( * it ) = = in ) { //Match!
return true ;
}
if ( ( * it ) . ToString ( ) = = " %u " ) {
Bitu value ;
if ( sscanf ( in . ToString ( ) . c_str ( ) , " %u " , & value ) = = 1 ) {
return true ;
}
}
}
if ( warn ) LOG_MSG ( " \" %s \" is not a valid value for variable: %s. \n It might now be reset it to default value: %s " , in . ToString ( ) . c_str ( ) , propname . c_str ( ) , default_value . ToString ( ) . c_str ( ) ) ;
return false ;
}
void Prop_path : : SetValue ( std : : string const & input ) {
//Special version to merge realpath with it
Value val ( input , Value : : V_STRING ) ;
SetVal ( val , false , true ) ;
if ( input . empty ( ) ) {
realpath = " " ;
return ;
}
std : : string workcopy ( input ) ;
Cross : : ResolveHomedir ( workcopy ) ; //Parse ~ and friends
//Prepend config directory in it exists. Check for absolute paths later
if ( current_config_dir . empty ( ) ) realpath = workcopy ;
else realpath = current_config_dir + CROSS_FILESPLIT + workcopy ;
//Absolute paths
# if defined (WIN32) || defined(OS2)
if ( workcopy . size ( ) > 2 & & workcopy [ 1 ] = = ' : ' ) realpath = workcopy ;
# else
if ( workcopy . size ( ) > 1 & & workcopy [ 0 ] = = ' / ' ) realpath = workcopy ;
# endif
}
void Prop_bool : : SetValue ( std : : string const & input ) {
value . SetValue ( input , Value : : V_BOOL ) ;
}
void Prop_hex : : SetValue ( std : : string const & input ) {
Value val ( input , Value : : V_HEX ) ;
SetVal ( val , false , true ) ;
}
void Prop_multival : : make_default_value ( ) {
Bitu i = 1 ;
Property * p = section - > Get_prop ( 0 ) ;
if ( ! p ) return ;
std : : string result = p - > Get_Default_Value ( ) . ToString ( ) ;
while ( ( p = section - > Get_prop ( i + + ) ) ) {
std : : string props = p - > Get_Default_Value ( ) . ToString ( ) ;
if ( props = = " " ) continue ;
result + = seperator ; result + = props ;
}
Value val ( result , Value : : V_STRING ) ;
SetVal ( val , false , true ) ;
}
//TODO checkvalue stuff
void Prop_multival_remain : : SetValue ( std : : string const & input ) {
Value val ( input , Value : : V_STRING ) ;
SetVal ( val , false , true ) ;
std : : string local ( input ) ;
int i = 0 , number_of_properties = 0 ;
Property * p = section - > Get_prop ( 0 ) ;
//No properties in this section. do nothing
if ( ! p ) return ;
while ( ( section - > Get_prop ( number_of_properties ) ) )
number_of_properties + + ;
string : : size_type loc = string : : npos ;
while ( ( p = section - > Get_prop ( i + + ) ) ) {
//trim leading seperators
loc = local . find_first_not_of ( seperator ) ;
if ( loc ! = string : : npos ) local . erase ( 0 , loc ) ;
loc = local . find_first_of ( seperator ) ;
string in = " " ; //default value
/* when i == number_of_properties add the total line. (makes more then
* one string argument possible for parameters of cpu ) */
if ( loc ! = string : : npos & & i < number_of_properties ) { //seperator found
in = local . substr ( 0 , loc ) ;
local . erase ( 0 , loc + 1 ) ;
} else if ( local . size ( ) ) { //last argument or last property
in = local ;
local = " " ;
}
//Test Value. If it fails set default
Value valtest ( in , p - > Get_type ( ) ) ;
if ( ! p - > CheckValue ( valtest , true ) ) {
make_default_value ( ) ;
return ;
}
p - > SetValue ( in ) ;
}
}
//TODO checkvalue stuff
void Prop_multival : : SetValue ( std : : string const & input ) {
Value val ( input , Value : : V_STRING ) ;
SetVal ( val , false , true ) ;
std : : string local ( input ) ;
int i = 0 ;
Property * p = section - > Get_prop ( 0 ) ;
//No properties in this section. do nothing
if ( ! p ) return ;
string : : size_type loc = string : : npos ;
while ( ( p = section - > Get_prop ( i + + ) ) ) {
//trim leading seperators
loc = local . find_first_not_of ( seperator ) ;
if ( loc ! = string : : npos ) local . erase ( 0 , loc ) ;
loc = local . find_first_of ( seperator ) ;
string in = " " ; //default value
if ( loc ! = string : : npos ) { //seperator found
in = local . substr ( 0 , loc ) ;
local . erase ( 0 , loc + 1 ) ;
} else if ( local . size ( ) ) { //last argument
in = local ;
local = " " ;
}
//Test Value. If it fails set default
Value valtest ( in , p - > Get_type ( ) ) ;
if ( ! p - > CheckValue ( valtest , true ) ) {
make_default_value ( ) ;
return ;
}
p - > SetValue ( in ) ;
}
}
const std : : vector < Value > & Property : : GetValues ( ) const {
return suggested_values ;
}
const std : : vector < Value > & Prop_multival : : GetValues ( ) const
{
Property * p = section - > Get_prop ( 0 ) ;
//No properties in this section. do nothing
if ( ! p ) return suggested_values ;
int i = 0 ;
while ( ( p = section - > Get_prop ( i + + ) ) ) {
std : : vector < Value > v = p - > GetValues ( ) ;
if ( ! v . empty ( ) ) return p - > GetValues ( ) ;
}
return suggested_values ;
}
/*
void Section_prop : : Add_double ( char const * const _propname , double _value ) {
Property * test = new Prop_double ( _propname , _value ) ;
properties . push_back ( test ) ;
} */
void Property : : Set_values ( const char * const * in ) {
Value : : Etype type = default_value . type ;
int i = 0 ;
while ( in [ i ] ) {
Value val ( in [ i ] , type ) ;
suggested_values . push_back ( val ) ;
i + + ;
}
}
Prop_int * Section_prop : : Add_int ( string const & _propname , Property : : Changeable : : Value when , int _value ) {
Prop_int * test = new Prop_int ( _propname , when , _value ) ;
properties . push_back ( test ) ;
return test ;
}
Prop_string * Section_prop : : Add_string ( string const & _propname , Property : : Changeable : : Value when , char const * const _value ) {
Prop_string * test = new Prop_string ( _propname , when , _value ) ;
properties . push_back ( test ) ;
return test ;
}
Prop_path * Section_prop : : Add_path ( string const & _propname , Property : : Changeable : : Value when , char const * const _value ) {
Prop_path * test = new Prop_path ( _propname , when , _value ) ;
properties . push_back ( test ) ;
return test ;
}
Prop_bool * Section_prop : : Add_bool ( string const & _propname , Property : : Changeable : : Value when , bool _value ) {
Prop_bool * test = new Prop_bool ( _propname , when , _value ) ;
properties . push_back ( test ) ;
return test ;
}
Prop_hex * Section_prop : : Add_hex ( string const & _propname , Property : : Changeable : : Value when , Hex _value ) {
Prop_hex * test = new Prop_hex ( _propname , when , _value ) ;
properties . push_back ( test ) ;
return test ;
}
Prop_multival * Section_prop : : Add_multi ( std : : string const & _propname , Property : : Changeable : : Value when , std : : string const & sep ) {
Prop_multival * test = new Prop_multival ( _propname , when , sep ) ;
properties . push_back ( test ) ;
return test ;
}
Prop_multival_remain * Section_prop : : Add_multiremain ( std : : string const & _propname , Property : : Changeable : : Value when , std : : string const & sep ) {
Prop_multival_remain * test = new Prop_multival_remain ( _propname , when , sep ) ;
properties . push_back ( test ) ;
return test ;
}
int Section_prop : : Get_int ( string const & _propname ) const {
for ( const_it tel = properties . begin ( ) ; tel ! = properties . end ( ) ; tel + + ) {
if ( ( * tel ) - > propname = = _propname ) {
return ( ( * tel ) - > GetValue ( ) ) ;
}
}
return 0 ;
}
bool Section_prop : : Get_bool ( string const & _propname ) const {
for ( const_it tel = properties . begin ( ) ; tel ! = properties . end ( ) ; tel + + ) {
if ( ( * tel ) - > propname = = _propname ) {
return ( ( * tel ) - > GetValue ( ) ) ;
}
}
return false ;
}
double Section_prop : : Get_double ( string const & _propname ) const {
for ( const_it tel = properties . begin ( ) ; tel ! = properties . end ( ) ; tel + + ) {
if ( ( * tel ) - > propname = = _propname ) {
return ( ( * tel ) - > GetValue ( ) ) ;
}
}
return 0.0 ;
}
Prop_path * Section_prop : : Get_path ( string const & _propname ) const {
for ( const_it tel = properties . begin ( ) ; tel ! = properties . end ( ) ; tel + + ) {
if ( ( * tel ) - > propname = = _propname ) {
Prop_path * val = dynamic_cast < Prop_path * > ( ( * tel ) ) ;
if ( val ) return val ; else return NULL ;
}
}
return NULL ;
}
Prop_multival * Section_prop : : Get_multival ( string const & _propname ) const {
for ( const_it tel = properties . begin ( ) ; tel ! = properties . end ( ) ; tel + + ) {
if ( ( * tel ) - > propname = = _propname ) {
Prop_multival * val = dynamic_cast < Prop_multival * > ( ( * tel ) ) ;
if ( val ) return val ; else return NULL ;
}
}
return NULL ;
}
Prop_multival_remain * Section_prop : : Get_multivalremain ( string const & _propname ) const {
for ( const_it tel = properties . begin ( ) ; tel ! = properties . end ( ) ; tel + + ) {
if ( ( * tel ) - > propname = = _propname ) {
Prop_multival_remain * val = dynamic_cast < Prop_multival_remain * > ( ( * tel ) ) ;
if ( val ) return val ; else return NULL ;
}
}
return NULL ;
}
Property * Section_prop : : Get_prop ( int index ) {
for ( it tel = properties . begin ( ) ; tel ! = properties . end ( ) ; tel + + ) {
if ( ! index - - ) return ( * tel ) ;
}
return NULL ;
}
const char * Section_prop : : Get_string ( string const & _propname ) const {
for ( const_it tel = properties . begin ( ) ; tel ! = properties . end ( ) ; tel + + ) {
if ( ( * tel ) - > propname = = _propname ) {
return ( ( * tel ) - > GetValue ( ) ) ;
}
}
return " " ;
}
Hex Section_prop : : Get_hex ( string const & _propname ) const {
for ( const_it tel = properties . begin ( ) ; tel ! = properties . end ( ) ; tel + + ) {
if ( ( * tel ) - > propname = = _propname ) {
return ( ( * tel ) - > GetValue ( ) ) ;
}
}
return 0 ;
}
void trim ( string & in ) {
string : : size_type loc = in . find_first_not_of ( " \r \t \f \n " ) ;
if ( loc ! = string : : npos ) in . erase ( 0 , loc ) ;
loc = in . find_last_not_of ( " \r \t \f \n " ) ;
if ( loc ! = string : : npos ) in . erase ( loc + 1 ) ;
}
//TODO double c_str
void Section_prop : : HandleInputline ( string const & gegevens ) {
string str1 = gegevens ;
string : : size_type loc = str1 . find ( ' = ' ) ;
if ( loc = = string : : npos ) return ;
string name = str1 . substr ( 0 , loc ) ;
string val = str1 . substr ( loc + 1 ) ;
/* trim the results incase there were spaces somewhere */
trim ( name ) ; trim ( val ) ;
for ( it tel = properties . begin ( ) ; tel ! = properties . end ( ) ; tel + + ) {
if ( ! strcasecmp ( ( * tel ) - > propname . c_str ( ) , name . c_str ( ) ) ) {
( * tel ) - > SetValue ( val ) ;
return ;
}
}
}
void Section_prop : : PrintData ( FILE * outfile ) const {
/* Now print out the individual section entries */
for ( const_it tel = properties . begin ( ) ; tel ! = properties . end ( ) ; tel + + ) {
fprintf ( outfile , " %s=%s \n " , ( * tel ) - > propname . c_str ( ) , ( * tel ) - > GetValue ( ) . ToString ( ) . c_str ( ) ) ;
}
}
//TODO geen noodzaak voor 2 keer c_str
string Section_prop : : GetPropValue ( string const & _property ) const {
for ( const_it tel = properties . begin ( ) ; tel ! = properties . end ( ) ; tel + + ) {
if ( ! strcasecmp ( ( * tel ) - > propname . c_str ( ) , _property . c_str ( ) ) ) {
return ( * tel ) - > GetValue ( ) . ToString ( ) ;
}
}
return NO_SUCH_PROPERTY ;
}
void Section_line : : HandleInputline ( string const & line ) {
data + = line ;
data + = " \n " ;
}
void Section_line : : PrintData ( FILE * outfile ) const {
fprintf ( outfile , " %s " , data . c_str ( ) ) ;
}
string Section_line : : GetPropValue ( string const & /* _property*/ ) const {
return NO_SUCH_PROPERTY ;
}
bool Config : : PrintConfig ( char const * const configfilename ) const {
char temp [ 50 ] ; char helpline [ 256 ] ;
FILE * outfile = fopen ( configfilename , " w+t " ) ;
if ( outfile = = NULL ) return false ;
/* Print start of configfile and add an return to improve readibility. */
fprintf ( outfile , MSG_Get ( " CONFIGFILE_INTRO " ) , VERSION ) ;
fprintf ( outfile , " \n " ) ;
for ( const_it tel = sectionlist . begin ( ) ; tel ! = sectionlist . end ( ) ; tel + + ) {
/* Print out the Section header */
Section_prop * sec = dynamic_cast < Section_prop * > ( * tel ) ;
strcpy ( temp , ( * tel ) - > GetName ( ) ) ;
lowcase ( temp ) ;
fprintf ( outfile , " [%s] \n " , temp ) ;
if ( sec ) {
Property * p ;
size_t i = 0 , maxwidth = 0 ;
while ( ( p = sec - > Get_prop ( i + + ) ) ) {
size_t w = strlen ( p - > propname . c_str ( ) ) ;
if ( w > maxwidth ) maxwidth = w ;
}
i = 0 ;
char prefix [ 80 ] ;
snprintf ( prefix , 80 , " \n # %*s " , maxwidth , " " ) ;
while ( ( p = sec - > Get_prop ( i + + ) ) ) {
std : : string help = p - > Get_help ( ) ;
std : : string : : size_type pos = std : : string : : npos ;
while ( ( pos = help . find ( " \n " , pos + 1 ) ) ! = std : : string : : npos ) {
help . replace ( pos , 1 , prefix ) ;
}
fprintf ( outfile , " # %*s: %s " , maxwidth , p - > propname . c_str ( ) , help . c_str ( ) ) ;
std : : vector < Value > values = p - > GetValues ( ) ;
if ( ! values . empty ( ) ) {
fprintf ( outfile , " %s%s: " , prefix , MSG_Get ( " CONFIG_SUGGESTED_VALUES " ) ) ;
std : : vector < Value > : : iterator it = values . begin ( ) ;
while ( it ! = values . end ( ) ) {
if ( ( * it ) . ToString ( ) ! = " %u " ) { //Hack hack hack. else we need to modify GetValues, but that one is const...
if ( it ! = values . begin ( ) ) fputs ( " , " , outfile ) ;
fprintf ( outfile , " %s " , ( * it ) . ToString ( ) . c_str ( ) ) ;
}
+ + it ;
}
fprintf ( outfile , " . " ) ;
}
fprintf ( outfile , " \n " ) ;
}
} else {
upcase ( temp ) ;
strcat ( temp , " _CONFIGFILE_HELP " ) ;
const char * helpstr = MSG_Get ( temp ) ;
char * helpwrite = helpline ;
while ( * helpstr ) {
* helpwrite + + = * helpstr ;
if ( * helpstr = = ' \n ' ) {
* helpwrite = 0 ;
fprintf ( outfile , " # %s " , helpline ) ;
helpwrite = helpline ;
}
helpstr + + ;
}
}
fprintf ( outfile , " \n " ) ;
( * tel ) - > PrintData ( outfile ) ;
fprintf ( outfile , " \n " ) ; /* Always an empty line between sections */
}
fclose ( outfile ) ;
return true ;
}
Section_prop * Config : : AddSection_prop ( char const * const _name , void ( * _initfunction ) ( Section * ) , bool canchange ) {
Section_prop * blah = new Section_prop ( _name ) ;
blah - > AddInitFunction ( _initfunction , canchange ) ;
sectionlist . push_back ( blah ) ;
return blah ;
}
Section_prop : : ~ Section_prop ( ) {
//ExecuteDestroy should be here else the destroy functions use destroyed properties
ExecuteDestroy ( true ) ;
/* Delete properties themself (properties stores the pointer of a prop */
for ( it prop = properties . begin ( ) ; prop ! = properties . end ( ) ; prop + + )
delete ( * prop ) ;
}
Section_line * Config : : AddSection_line ( char const * const _name , void ( * _initfunction ) ( Section * ) ) {
Section_line * blah = new Section_line ( _name ) ;
blah - > AddInitFunction ( _initfunction ) ;
sectionlist . push_back ( blah ) ;
return blah ;
}
void Config : : Init ( ) {
for ( const_it tel = sectionlist . begin ( ) ; tel ! = sectionlist . end ( ) ; tel + + ) {
( * tel ) - > ExecuteInit ( ) ;
}
}
void Section : : AddInitFunction ( SectionFunction func , bool canchange ) {
initfunctions . push_back ( Function_wrapper ( func , canchange ) ) ;
}
void Section : : AddDestroyFunction ( SectionFunction func , bool canchange ) {
destroyfunctions . push_front ( Function_wrapper ( func , canchange ) ) ;
}
void Section : : ExecuteInit ( bool initall ) {
typedef std : : list < Function_wrapper > : : iterator func_it ;
for ( func_it tel = initfunctions . begin ( ) ; tel ! = initfunctions . end ( ) ; tel + + ) {
if ( initall | | ( * tel ) . canchange ) ( * tel ) . function ( this ) ;
}
}
void Section : : ExecuteDestroy ( bool destroyall ) {
typedef std : : list < Function_wrapper > : : iterator func_it ;
for ( func_it tel = destroyfunctions . begin ( ) ; tel ! = destroyfunctions . end ( ) ; ) {
if ( destroyall | | ( * tel ) . canchange ) {
( * tel ) . function ( this ) ;
tel = destroyfunctions . erase ( tel ) ; //Remove destroyfunction once used
} else tel + + ;
}
}
Config : : ~ Config ( ) {
reverse_it cnt = sectionlist . rbegin ( ) ;
while ( cnt ! = sectionlist . rend ( ) ) {
delete ( * cnt ) ;
cnt + + ;
}
}
Section * Config : : GetSection ( int index ) {
for ( it tel = sectionlist . begin ( ) ; tel ! = sectionlist . end ( ) ; tel + + ) {
if ( ! index - - ) return ( * tel ) ;
}
return NULL ;
}
//c_str() 2x
Section * Config : : GetSection ( string const & _sectionname ) const {
for ( const_it tel = sectionlist . begin ( ) ; tel ! = sectionlist . end ( ) ; tel + + ) {
if ( ! strcasecmp ( ( * tel ) - > GetName ( ) , _sectionname . c_str ( ) ) ) return ( * tel ) ;
}
return NULL ;
}
Section * Config : : GetSectionFromProperty ( char const * const prop ) const {
for ( const_it tel = sectionlist . begin ( ) ; tel ! = sectionlist . end ( ) ; tel + + ) {
if ( ( * tel ) - > GetPropValue ( prop ) ! = NO_SUCH_PROPERTY ) return ( * tel ) ;
}
return NULL ;
}
bool Config : : ParseConfigFile ( char const * const configfilename ) {
static bool first_configfile = true ;
ifstream in ( configfilename ) ;
if ( ! in ) return false ;
const char * settings_type = first_configfile ? " primary " : " additional " ;
first_configfile = false ;
LOG_MSG ( " CONFIG:Loading %s settings from config file %s " , settings_type , configfilename ) ;
//Get directory from configfilename, used with relative paths.
current_config_dir = configfilename ;
std : : string : : size_type pos = current_config_dir . rfind ( CROSS_FILESPLIT ) ;
if ( pos = = std : : string : : npos ) pos = 0 ; //No directory then erase string
current_config_dir . erase ( pos ) ;
string gegevens ;
Section * currentsection = NULL ;
Section * testsec = NULL ;
while ( getline ( in , gegevens ) ) {
/* strip leading/trailing whitespace */
trim ( gegevens ) ;
if ( ! gegevens . size ( ) ) continue ;
switch ( gegevens [ 0 ] ) {
case ' % ' :
case ' \0 ' :
case ' # ' :
case ' ' :
case ' \n ' :
continue ;
break ;
case ' [ ' :
{
string : : size_type loc = gegevens . find ( ' ] ' ) ;
if ( loc = = string : : npos ) continue ;
gegevens . erase ( loc ) ;
testsec = GetSection ( gegevens . substr ( 1 ) ) ;
if ( testsec ! = NULL ) currentsection = testsec ;
testsec = NULL ;
}
break ;
default :
try {
if ( currentsection ) currentsection - > HandleInputline ( gegevens ) ;
} catch ( const char * message ) {
message = 0 ;
//EXIT with message
}
break ;
}
}
current_config_dir . clear ( ) ; //So internal changes don't use the path information
return true ;
}
void Config : : ParseEnv ( char * * envp ) {
for ( char * * env = envp ; * env ; env + + ) {
char copy [ 1024 ] ;
safe_strncpy ( copy , * env , 1024 ) ;
if ( strncasecmp ( copy , " DOSBOX_ " , 7 ) )
continue ;
char * sec_name = & copy [ 7 ] ;
if ( ! ( * sec_name ) )
continue ;
char * prop_name = strrchr ( sec_name , ' _ ' ) ;
if ( ! prop_name | | ! ( * prop_name ) )
continue ;
* prop_name + + = 0 ;
Section * sect = GetSection ( sec_name ) ;
if ( ! sect )
continue ;
sect - > HandleInputline ( prop_name ) ;
}
}
void Config : : SetStartUp ( void ( * _function ) ( void ) ) {
_start_function = _function ;
}
void Config : : StartUp ( void ) {
( * _start_function ) ( ) ;
}
bool CommandLine : : FindExist ( char const * const name , bool remove ) {
cmd_it it ;
if ( ! ( FindEntry ( name , it , false ) ) ) return false ;
if ( remove ) cmds . erase ( it ) ;
return true ;
}
bool CommandLine : : FindHex ( char const * const name , int & value , bool remove ) {
cmd_it it , it_next ;
if ( ! ( FindEntry ( name , it , true ) ) ) return false ;
it_next = it ; it_next + + ;
sscanf ( ( * it_next ) . c_str ( ) , " %X " , & value ) ;
if ( remove ) cmds . erase ( it , + + it_next ) ;
return true ;
}
bool CommandLine : : FindInt ( char const * const name , int & value , bool remove ) {
cmd_it it , it_next ;
if ( ! ( FindEntry ( name , it , true ) ) ) return false ;
it_next = it ; it_next + + ;
value = atoi ( ( * it_next ) . c_str ( ) ) ;
if ( remove ) cmds . erase ( it , + + it_next ) ;
return true ;
}
bool CommandLine : : FindString ( char const * const name , std : : string & value , bool remove ) {
cmd_it it , it_next ;
if ( ! ( FindEntry ( name , it , true ) ) ) return false ;
it_next = it ; it_next + + ;
value = * it_next ;
if ( remove ) cmds . erase ( it , + + it_next ) ;
return true ;
}
bool CommandLine : : FindCommand ( unsigned int which , std : : string & value ) {
if ( which < 1 ) return false ;
if ( which > cmds . size ( ) ) return false ;
cmd_it it = cmds . begin ( ) ;
for ( ; which > 1 ; which - - ) it + + ;
value = ( * it ) ;
return true ;
}
bool CommandLine : : FindEntry ( char const * const name , cmd_it & it , bool neednext ) {
for ( it = cmds . begin ( ) ; it ! = cmds . end ( ) ; it + + ) {
if ( ! strcasecmp ( ( * it ) . c_str ( ) , name ) ) {
cmd_it itnext = it ; itnext + + ;
if ( neednext & & ( itnext = = cmds . end ( ) ) ) return false ;
return true ;
}
}
return false ;
}
bool CommandLine : : FindStringBegin ( char const * const begin , std : : string & value , bool remove ) {
size_t len = strlen ( begin ) ;
for ( cmd_it it = cmds . begin ( ) ; it ! = cmds . end ( ) ; it + + ) {
if ( strncmp ( begin , ( * it ) . c_str ( ) , len ) = = 0 ) {
value = ( ( * it ) . c_str ( ) + len ) ;
if ( remove ) cmds . erase ( it ) ;
return true ;
}
}
return false ;
}
bool CommandLine : : FindStringRemain ( char const * const name , std : : string & value ) {
cmd_it it ; value = " " ;
if ( ! FindEntry ( name , it ) ) return false ;
it + + ;
for ( ; it ! = cmds . end ( ) ; it + + ) {
value + = " " ;
value + = ( * it ) ;
}
return true ;
}
bool CommandLine : : GetStringRemain ( std : : string & value ) {
if ( ! cmds . size ( ) ) return false ;
cmd_it it = cmds . begin ( ) ; value = ( * it + + ) ;
for ( ; it ! = cmds . end ( ) ; it + + ) {
value + = " " ;
value + = ( * it ) ;
}
return true ;
}
unsigned int CommandLine : : GetCount ( void ) {
return ( unsigned int ) cmds . size ( ) ;
}
CommandLine : : CommandLine ( int argc , char const * const argv [ ] ) {
if ( argc > 0 ) {
file_name = argv [ 0 ] ;
}
int i = 1 ;
while ( i < argc ) {
cmds . push_back ( argv [ i ] ) ;
i + + ;
}
}
Bit16u CommandLine : : Get_arglength ( ) {
if ( cmds . empty ( ) ) return 0 ;
Bit16u i = 1 ;
for ( cmd_it it = cmds . begin ( ) ; it ! = cmds . end ( ) ; it + + )
i + = ( * it ) . size ( ) + 1 ;
return - - i ;
}
CommandLine : : CommandLine ( char const * const name , char const * const cmdline ) {
if ( name ) file_name = name ;
/* Parse the cmds and put them in the list */
bool inword , inquote ; char c ;
inword = false ; inquote = false ;
std : : string str ;
const char * c_cmdline = cmdline ;
while ( ( c = * c_cmdline ) ! = 0 ) {
if ( inquote ) {
if ( c ! = ' " ' ) str + = c ;
else {
inquote = false ;
cmds . push_back ( str ) ;
str . erase ( ) ;
}
} else if ( inword ) {
if ( c ! = ' ' ) str + = c ;
else {
inword = false ;
cmds . push_back ( str ) ;
str . erase ( ) ;
}
}
else if ( c = = ' " ' ) { inquote = true ; }
else if ( c ! = ' ' ) { str + = c ; inword = true ; }
c_cmdline + + ;
}
if ( inword | | inquote ) cmds . push_back ( str ) ;
}
void CommandLine : : Shift ( unsigned int amount ) {
while ( amount - - ) {
file_name = cmds . size ( ) ? ( * ( cmds . begin ( ) ) ) : " " ;
if ( cmds . size ( ) ) cmds . erase ( cmds . begin ( ) ) ;
}
}