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# include "stdafx.h"
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# include "ttd.h"
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# include "airport.h"
AirportFTAClass * CountryAirport ;
AirportFTAClass * CityAirport ;
AirportFTAClass * Heliport , * Oilrig ;
AirportFTAClass * MetropolitanAirport ;
AirportFTAClass * InternationalAirport ;
static void AirportFTAClass_Constructor ( AirportFTAClass * Airport ,
const byte nofterminals , const byte nofterminalgroups ,
const byte nofhelipads , const byte nofhelipadgroups ,
const byte entry_point , const byte acc_planes ,
const AirportFTAbuildup * FA ,
const TileIndex * depots ) ;
static void AirportFTAClass_Destructor ( AirportFTAClass * Airport ) ;
static uint16 AirportGetNofElements ( const AirportFTAbuildup * FA ) ;
static void AirportBuildAutomata ( AirportFTAClass * Airport , const AirportFTAbuildup * FA ) ;
static byte AirportTestFTA ( const AirportFTAClass * Airport ) ;
/*static void AirportPrintOut(const AirportFTAClass *Airport, const bool full_report);
static byte AirportBlockToString ( uint32 block ) ; */
void InitializeAirports ( )
{
// country airport
CountryAirport = ( AirportFTAClass * ) malloc ( sizeof ( AirportFTAClass ) ) ;
AirportFTAClass_Constructor ( CountryAirport , 2 , 1 , 0 , 0 , 16 , ALL , _airport_fta_country , _airport_depots_country ) ;
// city airport
CityAirport = ( AirportFTAClass * ) malloc ( sizeof ( AirportFTAClass ) ) ;
AirportFTAClass_Constructor ( CityAirport , 3 , 1 , 0 , 0 , 19 , ALL , _airport_fta_city , _airport_depots_city ) ;
// metropolitan airport
MetropolitanAirport = ( AirportFTAClass * ) malloc ( sizeof ( AirportFTAClass ) ) ;
AirportFTAClass_Constructor ( MetropolitanAirport , 3 , 1 , 0 , 0 , 20 , ALL , _airport_fta_metropolitan , _airport_depots_metropolitan ) ;
// international airport
InternationalAirport = ( AirportFTAClass * ) malloc ( sizeof ( AirportFTAClass ) ) ;
AirportFTAClass_Constructor ( InternationalAirport , 6 , 2 , 2 , 1 , 37 , ALL , _airport_fta_international , _airport_depots_international ) ;
// heliport, oilrig
Heliport = ( AirportFTAClass * ) malloc ( sizeof ( AirportFTAClass ) ) ;
AirportFTAClass_Constructor ( Heliport , 0 , 0 , 1 , 1 , 7 , HELICOPTERS_ONLY , _airport_fta_heliport_oilrig , _airport_depots_heliport_oilrig ) ;
Oilrig = Heliport ; // exactly the same structure for heliport/oilrig, so share state machine
}
void UnInitializeAirports ( )
{
AirportFTAClass_Destructor ( CountryAirport ) ;
AirportFTAClass_Destructor ( CityAirport ) ;
AirportFTAClass_Destructor ( Heliport ) ;
AirportFTAClass_Destructor ( MetropolitanAirport ) ;
AirportFTAClass_Destructor ( InternationalAirport ) ;
}
static void AirportFTAClass_Constructor ( AirportFTAClass * Airport ,
const byte nofterminals , const byte nofterminalgroups ,
const byte nofhelipads , const byte nofhelipadgroups ,
const byte entry_point , const byte acc_planes ,
const AirportFTAbuildup * FA ,
const TileIndex * depots )
{
// if there are more terminals than 6, internal variables have to be changed, so don't allow that
// same goes for helipads
if ( nofterminals > MAX_TERMINALS ) { printf ( " Currently only maximum of %2d terminals are supported (you wanted %2d) \n " , MAX_TERMINALS , nofterminals ) ; }
if ( nofhelipads > MAX_HELIPADS ) { printf ( " Currently only maximum of %2d helipads are supported (you wanted %2d) \n " , MAX_HELIPADS , nofhelipads ) ; }
// terminals/helipads are divided into groups. Groups are computed by dividing the number
// of terminals by the number of groups. Half in half. If #terminals is uneven, first group
// will get the less # of terminals
if ( nofterminalgroups > nofterminals ) { printf ( " # of terminalgroups (%2d) must be less or equal to terminals (%2d) " , nofterminals , nofterminalgroups ) ; }
if ( nofhelipadgroups > nofhelipads ) { printf ( " # of helipadgroups (%2d) must be less or equal to helipads (%2d) " , nofhelipads , nofhelipadgroups ) ; }
assert ( nofterminals < = MAX_TERMINALS ) ;
assert ( nofhelipads < = MAX_HELIPADS ) ;
assert ( nofterminalgroups < = nofterminals ) ;
assert ( nofhelipadgroups < = nofhelipads ) ;
Airport - > nofelements = AirportGetNofElements ( FA ) ;
// check
if ( entry_point > = Airport - > nofelements ) { printf ( " Entry point (%2d) must be within the airport positions (which is max %2d) \n " , entry_point , Airport - > nofelements ) ; }
assert ( entry_point < Airport - > nofelements ) ;
Airport - > nofterminals = nofterminals ;
Airport - > nofterminalgroups = nofterminalgroups ;
Airport - > nofhelipads = nofhelipads ;
Airport - > nofhelipadgroups = nofhelipadgroups ;
Airport - > acc_planes = acc_planes ;
Airport - > entry_point = entry_point ;
Airport - > airport_depots = ( uint16 * ) depots ;
// build the state machine
AirportBuildAutomata ( Airport , FA ) ;
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DEBUG ( misc , 1 ) ( " #Elements %2d; #Terminals %2d in %d group(s); #Helipads %2d in %d group(s) " , Airport - > nofelements ,
Airport - > nofterminals , Airport - > nofterminalgroups , Airport - > nofhelipads , Airport - > nofhelipadgroups ) ;
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{
byte _retval = AirportTestFTA ( Airport ) ;
if ( _retval ! = MAX_ELEMENTS ) { printf ( " ERROR with element: %d \n " , _retval - 1 ) ; }
assert ( _retval = = MAX_ELEMENTS ) ;
}
// print out full information
// true -- full info including heading, block, etc
// false -- short info, only position and next position
//AirportPrintOut(Airport, false);
}
static void AirportFTAClass_Destructor ( AirportFTAClass * Airport )
{
int i ;
AirportFTA * current , * next ;
for ( i = 0 ; i < Airport - > nofelements ; i + + ) {
current = Airport - > layout [ i ] . next_in_chain ;
while ( current ! = NULL ) {
next = current - > next_in_chain ;
free ( current ) ;
current = next ;
} ;
}
free ( Airport - > layout ) ;
free ( Airport ) ;
}
static uint16 AirportGetNofElements ( const AirportFTAbuildup * FA )
{
int i ;
uint16 nofelements = 0 ;
int temp = FA [ 0 ] . position ;
for ( i = 0 ; i < MAX_ELEMENTS ; i + + ) {
if ( temp ! = FA [ i ] . position ) {
nofelements + + ;
temp = FA [ i ] . position ;
}
if ( FA [ i ] . position = = MAX_ELEMENTS ) { break ; }
}
return nofelements ;
}
static void AirportBuildAutomata ( AirportFTAClass * Airport , const AirportFTAbuildup * FA )
{
AirportFTA * FAutomata ;
AirportFTA * current ;
uint16 internalcounter , i ;
FAutomata = ( AirportFTA * ) malloc ( sizeof ( AirportFTA ) * Airport - > nofelements ) ;
Airport - > layout = FAutomata ;
internalcounter = 0 ;
for ( i = 0 ; i < Airport - > nofelements ; i + + ) {
current = & Airport - > layout [ i ] ;
current - > position = FA [ internalcounter ] . position ;
current - > heading = FA [ internalcounter ] . heading ;
current - > block = FA [ internalcounter ] . block ;
current - > next_position = FA [ internalcounter ] . next_in_chain ;
// outgoing nodes from the same position, create linked list
while ( current - > position = = FA [ internalcounter + 1 ] . position ) {
AirportFTA * newNode = ( AirportFTA * ) malloc ( sizeof ( AirportFTA ) ) ;
newNode - > position = FA [ internalcounter + 1 ] . position ;
newNode - > heading = FA [ internalcounter + 1 ] . heading ;
newNode - > block = FA [ internalcounter + 1 ] . block ;
newNode - > next_position = FA [ internalcounter + 1 ] . next_in_chain ;
// create link
current - > next_in_chain = newNode ;
current = current - > next_in_chain ;
internalcounter + + ;
} // while
current - > next_in_chain = NULL ;
internalcounter + + ;
}
}
static byte AirportTestFTA ( const AirportFTAClass * Airport )
{
byte position , i , next_element ;
AirportFTA * temp ;
next_element = 0 ;
for ( i = 0 ; i < Airport - > nofelements ; i + + ) {
position = Airport - > layout [ i ] . position ;
if ( position ! = next_element ) { return i ; }
temp = & Airport - > layout [ i ] ;
do {
if ( temp - > heading > MAX_HEADINGS & & temp - > heading ! = 255 ) { return i ; }
if ( temp - > heading = = 0 & & temp - > next_in_chain ! = 0 ) { return i ; }
if ( position ! = temp - > position ) { return i ; }
if ( temp - > next_position > = Airport - > nofelements ) { return i ; }
temp = temp - > next_in_chain ;
} while ( temp ! = NULL ) ;
next_element + + ;
}
return MAX_ELEMENTS ;
}
static const char * const _airport_heading_strings [ MAX_HEADINGS + 2 ] = {
" TO_ALL " ,
" HANGAR " ,
" TERM1 " ,
" TERM2 " ,
" TERM3 " ,
" TERM4 " ,
" TERM5 " ,
" TERM6 " ,
" HELIPAD1 " ,
" HELIPAD2 " ,
" TAKEOFF " ,
" STARTTAKEOFF " ,
" ENDTAKEOFF " ,
" HELITAKEOFF " ,
" FLYING " ,
" LANDING " ,
" ENDLANDING " ,
" HELILANDING " ,
" HELIENDLANDING " ,
" DUMMY " // extra heading for 255
} ;
/*
static void AirportPrintOut ( const AirportFTAClass * Airport , const bool full_report )
{
AirportFTA * temp ;
uint16 i ;
byte heading ;
printf ( " (P = Current Position; NP = Next Position) \n " ) ;
for ( i = 0 ; i < Airport - > nofelements ; i + + ) {
temp = & Airport - > layout [ i ] ;
if ( full_report ) {
heading = ( temp - > heading = = 255 ) ? MAX_HEADINGS + 1 : temp - > heading ;
printf ( " Pos:%2d NPos:%2d Heading:%15s Block:%2d \n " , temp - > position , temp - > next_position ,
_airport_heading_strings [ heading ] , AirportBlockToString ( temp - > block ) ) ;
}
else { printf ( " P:%2d NP:%2d " , temp - > position , temp - > next_position ) ; }
while ( temp - > next_in_chain ! = NULL ) {
temp = temp - > next_in_chain ;
if ( full_report ) {
heading = ( temp - > heading = = 255 ) ? MAX_HEADINGS + 1 : temp - > heading ;
printf ( " Pos:%2d NPos:%2d Heading:%15s Block:%2d \n " , temp - > position , temp - > next_position ,
_airport_heading_strings [ heading ] , AirportBlockToString ( temp - > block ) ) ;
}
else { printf ( " P:%2d NP:%2d " , temp - > position , temp - > next_position ) ; }
}
printf ( " \n " ) ;
}
}
static byte AirportBlockToString ( uint32 block )
{
byte i = 0 ;
if ( block & 0xffff0000 ) { block > > = 16 ; i + = 16 ; }
if ( block & 0x0000ff00 ) { block > > = 8 ; i + = 8 ; }
if ( block & 0x000000f0 ) { block > > = 4 ; i + = 4 ; }
if ( block & 0x0000000c ) { block > > = 2 ; i + = 2 ; }
if ( block & 0x00000002 ) { i + = 1 ; }
return i ;
} */
const AirportFTAClass * GetAirport ( const byte airport_type )
{
AirportFTAClass * Airport = NULL ;
//FIXME -- AircraftNextAirportPos_and_Order -> Needs something nicer, don't like this code
// needs constant change if more airports are added
switch ( airport_type ) {
case AT_SMALL : Airport = CountryAirport ; break ;
case AT_LARGE : Airport = CityAirport ; break ;
case AT_METROPOLITAN : Airport = MetropolitanAirport ; break ;
case AT_HELIPORT : Airport = Heliport ; break ;
case AT_OILRIG : Airport = Oilrig ; break ;
case AT_INTERNATIONAL : Airport = InternationalAirport ; break ;
default :
# ifdef DEBUG__
printf ( " Airport AircraftNextAirportPos_and_Order not yet implemented \n " ) ;
# endif
assert ( airport_type < = AT_INTERNATIONAL ) ;
}
return Airport ;
}