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/*
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* APM_RC_APM2 . cpp - Radio Control Library for Ardupilot Mega 2.0 . Arduino
* Code by Jordi Mu <EFBFBD> oz and Jose Julio . DIYDrones . com
*
* This library is free software ; you can redistribute it and / or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation ; either
* version 2.1 of the License , or ( at your option ) any later version .
*
* RC Input : PPM signal on IC4 pin
* RC Output : 11 Servo outputs ( standard 20 ms frame )
*
* Methods :
* Init ( ) : Initialization of interrupts an Timers
* OutpuCh ( ch , pwm ) : Output value to servos ( range : 900 - 2100u s ) ch = 0. .10
* InputCh ( ch ) : Read a channel input value . ch = 0. .7
* GetState ( ) : Returns the state of the input . 1 = > New radio frame to process
* Automatically resets when we call InputCh to read channels
*
*/
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# include "APM_RC_APM2.h"
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# include <avr/interrupt.h>
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# if defined(ARDUINO) && ARDUINO >= 100
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# include "Arduino.h"
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# else
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# include "WProgram.h"
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# endif
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# if !defined(__AVR_ATmega1280__) && !defined(__AVR_ATmega2560__) && !defined(DESKTOP_BUILD)
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# error Please check the Tools / Board menu to ensure you have selected Arduino Mega as your target.
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# else
// Variable definition for Input Capture interrupt
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volatile uint16_t APM_RC_APM2 : : _PWM_RAW [ NUM_CHANNELS ] = { 2400 , 2400 , 2400 , 2400 , 2400 , 2400 , 2400 , 2400 } ;
volatile uint8_t APM_RC_APM2 : : _radio_status = 0 ;
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/****************************************************
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* Input Capture Interrupt ICP5 = > PPM signal read
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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void APM_RC_APM2 : : _timer5_capt_cb ( void )
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{
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static uint16_t prev_icr ;
static uint8_t frame_idx ;
uint16_t icr ;
uint16_t pwidth ;
icr = ICR5 ;
// Calculate pulse width assuming timer overflow TOP = 40000
if ( icr < prev_icr ) {
pwidth = ( icr + 40000 ) - prev_icr ;
} else {
pwidth = icr - prev_icr ;
}
// Was it a sync pulse? If so, reset frame.
if ( pwidth > 8000 ) {
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// pass through values if at least a minimum number of channels received
if ( frame_idx > = MIN_CHANNELS ) {
_radio_status = 1 ;
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_last_update = millis ( ) ;
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}
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frame_idx = 0 ;
} else {
// Save pulse into _PWM_RAW array.
if ( frame_idx < NUM_CHANNELS ) {
_PWM_RAW [ frame_idx + + ] = pwidth ;
}
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}
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// Save icr for next call.
prev_icr = icr ;
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}
// Constructors ////////////////////////////////////////////////////////////////
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APM_RC_APM2 : : APM_RC_APM2 ( )
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{
}
// Public Methods //////////////////////////////////////////////////////////////
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void APM_RC_APM2 : : Init ( Arduino_Mega_ISR_Registry * isr_reg )
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{
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// --------------------- TIMER1: OUT1 and OUT2 -----------------------
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digitalWrite ( 12 , HIGH ) ; // pulling high before changing to output avoids a momentary drop of the pin to low because the ESCs have a pull-down resistor it seems
digitalWrite ( 11 , HIGH ) ;
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pinMode ( 12 , OUTPUT ) ; // OUT1 (PB6/OC1B)
pinMode ( 11 , OUTPUT ) ; // OUT2 (PB5/OC1A)
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digitalWrite ( 12 , HIGH ) ; // pulling high before changing to output avoids a momentary drop of the pin to low because the ESCs have a pull-down resistor it seems
digitalWrite ( 11 , HIGH ) ;
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// WGM: 1 1 1 0. Clear Timer on Compare, TOP is ICR1.
// CS11: prescale by 8 => 0.5us tick
TCCR1A = ( ( 1 < < WGM11 ) ) ;
TCCR1B = ( 1 < < WGM13 ) | ( 1 < < WGM12 ) | ( 1 < < CS11 ) ;
ICR1 = 40000 ; // 0.5us tick => 50hz freq
OCR1A = 0xFFFF ; // Init OCR registers to nil output signal
OCR1B = 0xFFFF ;
// --------------- TIMER4: OUT3, OUT4, and OUT5 ---------------------
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digitalWrite ( 8 , HIGH ) ;
digitalWrite ( 7 , HIGH ) ;
digitalWrite ( 6 , HIGH ) ;
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pinMode ( 8 , OUTPUT ) ; // OUT3 (PH5/OC4C)
pinMode ( 7 , OUTPUT ) ; // OUT4 (PH4/OC4B)
pinMode ( 6 , OUTPUT ) ; // OUT5 (PH3/OC4A)
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digitalWrite ( 8 , HIGH ) ;
digitalWrite ( 7 , HIGH ) ;
digitalWrite ( 6 , HIGH ) ;
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// WGM: 1 1 1 0. Clear Timer on Compare, TOP is ICR4.
// CS41: prescale by 8 => 0.5us tick
TCCR4A = ( ( 1 < < WGM41 ) ) ;
TCCR4B = ( 1 < < WGM43 ) | ( 1 < < WGM42 ) | ( 1 < < CS41 ) ;
OCR4A = 0xFFFF ; // Init OCR registers to nil output signal
OCR4B = 0xFFFF ;
OCR4C = 0xFFFF ;
ICR4 = 40000 ; // 0.5us tick => 50hz freq
//--------------- TIMER3: OUT6, OUT7, and OUT8 ----------------------
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digitalWrite ( 3 , HIGH ) ;
digitalWrite ( 2 , HIGH ) ;
digitalWrite ( 5 , HIGH ) ;
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pinMode ( 3 , OUTPUT ) ; // OUT6 (PE5/OC3C)
pinMode ( 2 , OUTPUT ) ; // OUT7 (PE4/OC3B)
pinMode ( 5 , OUTPUT ) ; // OUT8 (PE3/OC3A)
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digitalWrite ( 3 , HIGH ) ;
digitalWrite ( 2 , HIGH ) ;
digitalWrite ( 5 , HIGH ) ;
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// WGM: 1 1 1 0. Clear timer on Compare, TOP is ICR3
// CS31: prescale by 8 => 0.5us tick
TCCR3A = ( ( 1 < < WGM31 ) ) ;
TCCR3B = ( 1 < < WGM33 ) | ( 1 < < WGM32 ) | ( 1 < < CS31 ) ;
OCR3A = 0xFFFF ; // Init OCR registers to nil output signal
OCR3B = 0xFFFF ;
OCR3C = 0xFFFF ;
ICR3 = 40000 ; // 0.5us tick => 50hz freq
//--------------- TIMER5: PPM INPUT, OUT10, and OUT11 ---------------
// Init PPM input on Timer 5
pinMode ( 48 , INPUT ) ; // PPM Input (PL1/ICP5)
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digitalWrite ( 45 , HIGH ) ;
digitalWrite ( 44 , HIGH ) ;
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pinMode ( 45 , OUTPUT ) ; // OUT10 (PL4/OC5B)
pinMode ( 44 , OUTPUT ) ; // OUT11 (PL5/OC5C)
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digitalWrite ( 45 , HIGH ) ;
digitalWrite ( 44 , HIGH ) ;
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// WGM: 1 1 1 1. Fast PWM, TOP is OCR5A
// COM all disabled.
// CS51: prescale by 8 => 0.5us tick
// ICES5: Input Capture on rising edge
TCCR5A = ( ( 1 < < WGM50 ) | ( 1 < < WGM51 ) ) ;
// Input Capture rising edge
TCCR5B = ( ( 1 < < WGM53 ) | ( 1 < < WGM52 ) | ( 1 < < CS51 ) | ( 1 < < ICES5 ) ) ;
OCR5A = 40000 ; // 0.5us tick => 50hz freq. The input capture routine
// assumes this 40000 for TOP.
isr_reg - > register_signal ( ISR_REGISTRY_TIMER5_CAPT , _timer5_capt_cb ) ;
// Enable Input Capture interrupt
TIMSK5 | = ( 1 < < ICIE5 ) ;
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}
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void APM_RC_APM2 : : OutputCh ( unsigned char ch , uint16_t pwm )
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{
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pwm = constrain ( pwm , MIN_PULSEWIDTH , MAX_PULSEWIDTH ) ;
pwm < < = 1 ; // pwm*2;
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switch ( ch )
{
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case 0 : OCR1B = pwm ; break ; // out1
case 1 : OCR1A = pwm ; break ; // out2
case 2 : OCR4C = pwm ; break ; // out3
case 3 : OCR4B = pwm ; break ; // out4
case 4 : OCR4A = pwm ; break ; // out5
case 5 : OCR3C = pwm ; break ; // out6
case 6 : OCR3B = pwm ; break ; // out7
case 7 : OCR3A = pwm ; break ; // out8
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case 9 : OCR5B = pwm ; break ; // out10
case 10 : OCR5C = pwm ; break ; // out11
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}
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}
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uint16_t APM_RC_APM2 : : OutputCh_current ( uint8_t ch )
{
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uint16_t pwm = 0 ;
switch ( ch ) {
case 0 : pwm = OCR1B ; break ; // out1
case 1 : pwm = OCR1A ; break ; // out2
case 2 : pwm = OCR4C ; break ; // out3
case 3 : pwm = OCR4B ; break ; // out4
case 4 : pwm = OCR4A ; break ; // out5
case 5 : pwm = OCR3C ; break ; // out6
case 6 : pwm = OCR3B ; break ; // out7
case 7 : pwm = OCR3A ; break ; // out8
case 9 : pwm = OCR5B ; break ; // out10
case 10 : pwm = OCR5C ; break ; // out11
}
return pwm > > 1 ;
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}
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void APM_RC_APM2 : : enable_out ( uint8_t ch )
{
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switch ( ch ) {
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case 0 : TCCR1A | = ( 1 < < COM1B1 ) ; break ; // CH_1 : OC1B
case 1 : TCCR1A | = ( 1 < < COM1A1 ) ; break ; // CH_2 : OC1A
case 2 : TCCR4A | = ( 1 < < COM4C1 ) ; break ; // CH_3 : OC4C
case 3 : TCCR4A | = ( 1 < < COM4B1 ) ; break ; // CH_4 : OC4B
case 4 : TCCR4A | = ( 1 < < COM4A1 ) ; break ; // CH_5 : OC4A
case 5 : TCCR3A | = ( 1 < < COM3C1 ) ; break ; // CH_6 : OC3C
case 6 : TCCR3A | = ( 1 < < COM3B1 ) ; break ; // CH_7 : OC3B
case 7 : TCCR3A | = ( 1 < < COM3A1 ) ; break ; // CH_8 : OC3A
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case 9 : TCCR5A | = ( 1 < < COM5B1 ) ; break ; // CH_10 : OC5B
case 10 : TCCR5A | = ( 1 < < COM5C1 ) ; break ; // CH_11 : OC5C
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}
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}
void APM_RC_APM2 : : disable_out ( uint8_t ch )
{
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switch ( ch ) {
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case 0 : TCCR1A & = ~ ( 1 < < COM1B1 ) ; break ; // CH_1 : OC1B
case 1 : TCCR1A & = ~ ( 1 < < COM1A1 ) ; break ; // CH_2 : OC1A
case 2 : TCCR4A & = ~ ( 1 < < COM4C1 ) ; break ; // CH_3 : OC4C
case 3 : TCCR4A & = ~ ( 1 < < COM4B1 ) ; break ; // CH_4 : OC4B
case 4 : TCCR4A & = ~ ( 1 < < COM4A1 ) ; break ; // CH_5 : OC4A
case 5 : TCCR3A & = ~ ( 1 < < COM3C1 ) ; break ; // CH_6 : OC3C
case 6 : TCCR3A & = ~ ( 1 < < COM3B1 ) ; break ; // CH_7 : OC3B
case 7 : TCCR3A & = ~ ( 1 < < COM3A1 ) ; break ; // CH_8 : OC3A
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case 9 : TCCR5A & = ~ ( 1 < < COM5B1 ) ; break ; // CH_10 : OC5B
case 10 : TCCR5A & = ~ ( 1 < < COM5C1 ) ; break ; // CH_11 : OC5C
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}
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}
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uint16_t APM_RC_APM2 : : InputCh ( unsigned char ch )
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{
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uint16_t result ;
if ( _HIL_override [ ch ] ! = 0 ) {
return _HIL_override [ ch ] ;
}
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// We need to block ICP5 interrupts during the read of 16 bit PWM values
uint8_t _timsk5 = TIMSK5 ;
TIMSK5 & = ~ ( 1 < < ICIE5 ) ;
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// value
result = _PWM_RAW [ ch ] ;
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// Enable ICP5 interrupt if previously active
TIMSK5 = _timsk5 ;
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// Because timer runs at 0.5us we need to do value/2
result > > = 1 ;
// Limit values to a valid range
result = constrain ( result , MIN_PULSEWIDTH , MAX_PULSEWIDTH ) ;
_radio_status = 0 ; // Radio channel read
return result ;
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}
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unsigned char APM_RC_APM2 : : GetState ( void )
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{
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return ( _radio_status ) ;
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}
// InstantPWM is not implemented!
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void APM_RC_APM2 : : Force_Out ( void ) {
}
void APM_RC_APM2 : : Force_Out0_Out1 ( void ) {
}
void APM_RC_APM2 : : Force_Out2_Out3 ( void ) {
}
void APM_RC_APM2 : : Force_Out6_Out7 ( void ) {
}
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/* ---------------- OUTPUT SPEED CONTROL ------------------ */
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void APM_RC_APM2 : : SetFastOutputChannels ( uint32_t chmask , uint16_t speed_hz )
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{
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uint16_t icr = _map_speed ( speed_hz ) ;
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if ( ( chmask & ( _BV ( CH_1 ) | _BV ( CH_2 ) ) ) ! = 0 ) {
ICR1 = icr ;
}
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if ( ( chmask & ( _BV ( CH_3 ) | _BV ( CH_4 ) | _BV ( CH_5 ) ) ) ! = 0 ) {
ICR4 = icr ;
}
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if ( ( chmask & ( _BV ( CH_6 ) | _BV ( CH_7 ) | _BV ( CH_8 ) ) ) ! = 0 ) {
ICR3 = icr ;
}
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}
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// allow HIL override of RC values
// A value of -1 means no change
// A value of 0 means no override, use the real RC values
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bool APM_RC_APM2 : : setHIL ( int16_t v [ NUM_CHANNELS ] )
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{
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uint8_t sum = 0 ;
for ( unsigned char i = 0 ; i < NUM_CHANNELS ; i + + ) {
if ( v [ i ] ! = - 1 ) {
_HIL_override [ i ] = v [ i ] ;
}
if ( _HIL_override [ i ] ! = 0 ) {
sum + + ;
}
}
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_radio_status = 1 ;
_last_update = millis ( ) ;
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if ( sum = = 0 ) {
return 0 ;
} else {
return 1 ;
}
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}
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void APM_RC_APM2 : : clearOverride ( void )
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{
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for ( unsigned char i = 0 ; i < NUM_CHANNELS ; i + + ) {
_HIL_override [ i ] = 0 ;
}
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}
# endif