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/*
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xdrv_27_shutter . ino - Shutter / Blind support for Tasmota
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Copyright ( C ) 2020 Stefan Bode
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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 3 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 , see < http : //www.gnu.org/licenses/>.
*/
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# ifdef USE_SHUTTER
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/*********************************************************************************************\
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* Shutter or Blind support using two consecutive relays
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\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# define XDRV_27 27
# define D_SHUTTER "SHUTTER"
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const uint16_t MOTOR_STOP_TIME = 500 ; // in mS
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const uint8_t steps_per_second = 20 ; // FUNC_EVERY_50_MSECOND
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uint8_t calibrate_pos [ 6 ] = { 0 , 30 , 50 , 70 , 90 , 100 } ;
uint16_t messwerte [ 5 ] = { 30 , 50 , 70 , 90 , 100 } ;
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uint16_t last_execute_step ;
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enum ShutterModes { SHT_OFF_OPEN__OFF_CLOSE , SHT_OFF_ON__OPEN_CLOSE , SHT_PULSE_OPEN__PULSE_CLOSE , SHT_OFF_ON__OPEN_CLOSE_STEPPER , } ;
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enum ShutterButtonStates { SHT_NOT_PRESSED , SHT_PRESSED_MULTI , SHT_PRESSED_HOLD , SHT_PRESSED_IMMEDIATE , SHT_PRESSED_EXT_HOLD , SHT_PRESSED_MULTI_SIMULTANEOUS , SHT_PRESSED_HOLD_SIMULTANEOUS , SHT_PRESSED_EXT_HOLD_SIMULTANEOUS , } ;
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const char kShutterCommands [ ] PROGMEM = D_PRFX_SHUTTER " | "
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D_CMND_SHUTTER_OPEN " | " D_CMND_SHUTTER_CLOSE " | " D_CMND_SHUTTER_TOGGLE " | " D_CMND_SHUTTER_STOP " | " D_CMND_SHUTTER_POSITION " | "
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D_CMND_SHUTTER_OPENTIME " | " D_CMND_SHUTTER_CLOSETIME " | " D_CMND_SHUTTER_RELAY " | "
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D_CMND_SHUTTER_SETHALFWAY " | " D_CMND_SHUTTER_SETCLOSE " | " D_CMND_SHUTTER_INVERT " | " D_CMND_SHUTTER_CLIBRATION " | "
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D_CMND_SHUTTER_MOTORDELAY " | " D_CMND_SHUTTER_FREQUENCY " | " D_CMND_SHUTTER_BUTTON " | " D_CMND_SHUTTER_LOCK " | " D_CMND_SHUTTER_ENABLEENDSTOPTIME " | " D_CMND_SHUTTER_INVERTWEBBUTTONS " | "
D_CMND_SHUTTER_STOPOPEN " | " D_CMND_SHUTTER_STOPCLOSE " | " D_CMND_SHUTTER_STOPTOGGLE " | " D_CMND_SHUTTER_STOPPOSITION ;
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void ( * const ShutterCommand [ ] ) ( void ) PROGMEM = {
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& CmndShutterOpen , & CmndShutterClose , & CmndShutterToggle , & CmndShutterStop , & CmndShutterPosition ,
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& CmndShutterOpenTime , & CmndShutterCloseTime , & CmndShutterRelay ,
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& CmndShutterSetHalfway , & CmndShutterSetClose , & CmndShutterInvert , & CmndShutterCalibration , & CmndShutterMotorDelay ,
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& CmndShutterFrequency , & CmndShutterButton , & CmndShutterLock , & CmndShutterEnableEndStopTime , & CmndShutterInvertWebButtons ,
& CmndShutterStopOpen , & CmndShutterStopClose , & CmndShutterStopToggle , & CmndShutterStopPosition } ;
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const char JSON_SHUTTER_POS [ ] PROGMEM = " \" " D_PRFX_SHUTTER " %d \" :{ \" Position \" :%d, \" Direction \" :%d, \" Target \" :%d} " ;
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const char JSON_SHUTTER_BUTTON [ ] PROGMEM = " \" " D_PRFX_SHUTTER " %d \" :{ \" Button%d \" :%d} " ;
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# include <Ticker.h>
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Ticker TickerShutter ;
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struct SHUTTER {
power_t mask = 0 ; // bit mask with 11 at the position of relays that belong to at least ONE shutter
power_t old_power = 0 ; // preserve old bitmask for power to extract the relay that changes.
power_t switched_relay = 0 ; // bitmatrix that contain the relays that was lastly changed.
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uint32_t time [ MAX_SHUTTERS ] ; // operating time of the shutter in 0.05sec
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int32_t open_max [ MAX_SHUTTERS ] ; // max value on maximum open calculated
int32_t target_position [ MAX_SHUTTERS ] ; // position to go to
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int32_t start_position [ MAX_SHUTTERS ] ; // position before a movement is started. init at start
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int32_t real_position [ MAX_SHUTTERS ] ; // value between 0 and Shutter.open_max
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uint16_t open_time [ MAX_SHUTTERS ] ; // duration to open the shutter. 112 = 11.2sec
uint16_t close_time [ MAX_SHUTTERS ] ; // duration to close the shutter. 112 = 11.2sec
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uint16_t close_velocity [ MAX_SHUTTERS ] ; // in relation to open velocity. higher value = faster
int8_t direction [ MAX_SHUTTERS ] ; // 1 == UP , 0 == stop; -1 == down
uint8_t mode = 0 ; // operation mode definition. see enum type above SHT_OFF_OPEN__OFF_CLOSE, SHT_OFF_ON__OPEN_CLOSE, SHT_PULSE_OPEN__PULSE_CLOSE
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int16_t motordelay [ MAX_SHUTTERS ] ; // initial motorstarttime in 0.05sec.
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int16_t pwm_frequency [ MAX_SHUTTERS ] ; // frequency of PWN for stepper motors
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uint16_t max_pwm_frequency = 1000 ; // maximum of PWM frequency for openig the shutter. depend on the motor and drivers
uint16_t max_close_pwm_frequency [ MAX_SHUTTERS ] ; // maximum of PWM frequency for closeing the shutter. depend on the motor and drivers
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uint8_t skip_relay_change ; // avoid overrun at endstops
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int32_t accelerator [ MAX_SHUTTERS ] ; // speed of ramp-up, ramp down of shutter
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uint8_t start_reported = 0 ;
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} Shutter ;
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void ShutterLogPos ( uint32_t i )
{
char stemp2 [ 10 ] ;
dtostrfd ( ( float ) Shutter . time [ i ] / steps_per_second , 2 , stemp2 ) ;
AddLog_P2 ( LOG_LEVEL_INFO , PSTR ( " SHT: Shutter%d Real %d, Start %d, Stop %d, Dir %d, Delay %d, Rtc %s [s], Freq %d " ) ,
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i + 1 , Shutter . real_position [ i ] , Shutter . start_position [ i ] , Shutter . target_position [ i ] , Shutter . direction [ i ] , Shutter . motordelay [ i ] , stemp2 , Shutter . pwm_frequency [ i ] ) ;
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}
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void ShutterRtc50mS ( void )
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{
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for ( uint8_t i = 0 ; i < shutters_present ; i + + ) {
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Shutter . time [ i ] + + ;
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if ( Shutter . accelerator [ i ] ) {
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//AddLog_P2(LOG_LEVEL_DEBUG, PSTR("SHT: accelerator i=%d -> %d"),i, Shutter.accelerator[i]);
Shutter . pwm_frequency [ i ] + = Shutter . accelerator [ i ] ;
Shutter . pwm_frequency [ i ] = tmax ( 0 , tmin ( Shutter . direction [ i ] = = 1 ? Shutter . max_pwm_frequency : Shutter . max_close_pwm_frequency [ i ] , Shutter . pwm_frequency [ i ] ) ) ;
analogWriteFreq ( Shutter . pwm_frequency [ i ] ) ;
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analogWrite ( pin [ GPIO_PWM1 + i ] , 50 ) ;
}
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}
}
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# define SHT_DIV_ROUND(__A, __B) (((__A) + (__B) / 2) / (__B))
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int32_t ShutterPercentToRealPosition ( uint32_t percent , uint32_t index )
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{
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if ( Settings . shutter_set50percent [ index ] ! = 50 ) {
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return ( percent < = 5 ) ? Settings . shuttercoeff [ 2 ] [ index ] * percent : Settings . shuttercoeff [ 1 ] [ index ] * percent + Settings . shuttercoeff [ 0 ] [ index ] ;
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} else {
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uint32_t realpos ;
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// check against DIV 0
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for ( uint32_t j = 0 ; j < 5 ; j + + ) {
if ( 0 = = Settings . shuttercoeff [ j ] [ index ] ) {
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AddLog_P2 ( LOG_LEVEL_ERROR , PSTR ( " SHT: RESET/INIT CALIBRATION MATRIX DIV 0 " ) ) ;
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for ( uint32_t k = 0 ; k < 5 ; k + + ) {
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Settings . shuttercoeff [ k ] [ index ] = SHT_DIV_ROUND ( calibrate_pos [ k + 1 ] * 1000 , calibrate_pos [ 5 ] ) ;
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}
}
}
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for ( uint32_t i = 0 ; i < 5 ; i + + ) {
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if ( ( percent * 10 ) > = Settings . shuttercoeff [ i ] [ index ] ) {
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realpos = SHT_DIV_ROUND ( Shutter . open_max [ index ] * calibrate_pos [ i + 1 ] , 100 ) ;
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//AddLog_P2(LOG_LEVEL_INFO, PSTR("Realposition TEMP1: %d, %% %d, coeff %d"), realpos, percent, Settings.shuttercoeff[i][index]);
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} else {
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if ( 0 = = i ) {
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realpos = SHT_DIV_ROUND ( SHT_DIV_ROUND ( percent * Shutter . open_max [ index ] * calibrate_pos [ i + 1 ] , Settings . shuttercoeff [ i ] [ index ] ) , 10 ) ;
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} else {
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//uint16_t addon = ( percent*10 - Settings.shuttercoeff[i-1][index] ) * Shutter_Open_Max[index] * (calibrate_pos[i+1] - calibrate_pos[i]) / (Settings.shuttercoeff[i][index] -Settings.shuttercoeff[i-1][index]) / 100;
//AddLog_P2(LOG_LEVEL_INFO, PSTR("Realposition TEMP2: %d, %% %d, coeff %d"), addon, (calibrate_pos[i+1] - calibrate_pos[i]), (Settings.shuttercoeff[i][index] -Settings.shuttercoeff[i-1][index]));
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realpos + = SHT_DIV_ROUND ( SHT_DIV_ROUND ( ( percent * 10 - Settings . shuttercoeff [ i - 1 ] [ index ] ) * Shutter . open_max [ index ] * ( calibrate_pos [ i + 1 ] - calibrate_pos [ i ] ) , Settings . shuttercoeff [ i ] [ index ] - Settings . shuttercoeff [ i - 1 ] [ index ] ) , 100 ) ;
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}
break ;
}
}
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return realpos ;
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}
}
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uint8_t ShutterRealToPercentPosition ( int32_t realpos , uint32_t index )
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{
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if ( Settings . shutter_set50percent [ index ] ! = 50 ) {
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return ( Settings . shuttercoeff [ 2 ] [ index ] * 5 > realpos ) ? SHT_DIV_ROUND ( realpos , Settings . shuttercoeff [ 2 ] [ index ] ) : SHT_DIV_ROUND ( realpos - Settings . shuttercoeff [ 0 ] [ index ] , Settings . shuttercoeff [ 1 ] [ index ] ) ;
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} else {
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uint16_t realpercent ;
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for ( uint32_t i = 0 ; i < 5 ; i + + ) {
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if ( realpos > = Shutter . open_max [ index ] * calibrate_pos [ i + 1 ] / 100 ) {
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realpercent = SHT_DIV_ROUND ( Settings . shuttercoeff [ i ] [ index ] , 10 ) ;
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//AddLog_P2(LOG_LEVEL_INFO, PSTR("Realpercent TEMP1: %d, %% %d, coeff %d"), realpercent, realpos, Shutter_Open_Max[index] * calibrate_pos[i+1] / 100);
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} else {
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if ( 0 = = i ) {
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realpercent = SHT_DIV_ROUND ( SHT_DIV_ROUND ( ( realpos - SHT_DIV_ROUND ( Shutter . open_max [ index ] * calibrate_pos [ i ] , 100 ) ) * 10 * Settings . shuttercoeff [ i ] [ index ] , calibrate_pos [ i + 1 ] ) , Shutter . open_max [ index ] ) ;
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} else {
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//uint16_t addon = ( realpos - (Shutter_Open_Max[index] * calibrate_pos[i] / 100) ) * 10 * (Settings.shuttercoeff[i][index] - Settings.shuttercoeff[i-1][index]) / (calibrate_pos[i+1] - calibrate_pos[i])/ Shutter_Open_Max[index];
//uint16_t addon = ( percent*10 - Settings.shuttercoeff[i-1][index] ) * Shutter_Open_Max[index] * (calibrate_pos[i+1] - calibrate_pos[i]) / (Settings.shuttercoeff[i][index] -Settings.shuttercoeff[i-1][index]) / 100;
//AddLog_P2(LOG_LEVEL_INFO, PSTR("Realpercent TEMP2: %d, delta %d, %% %d, coeff %d"), addon,( realpos - (Shutter_Open_Max[index] * calibrate_pos[i] / 100) ) , (calibrate_pos[i+1] - calibrate_pos[i])* Shutter_Open_Max[index]/100, (Settings.shuttercoeff[i][index] -Settings.shuttercoeff[i-1][index]));
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realpercent + = SHT_DIV_ROUND ( SHT_DIV_ROUND ( ( realpos - SHT_DIV_ROUND ( Shutter . open_max [ index ] * calibrate_pos [ i ] , 100 ) ) * 10 * ( Settings . shuttercoeff [ i ] [ index ] - Settings . shuttercoeff [ i - 1 ] [ index ] ) , ( calibrate_pos [ i + 1 ] - calibrate_pos [ i ] ) ) , Shutter . open_max [ index ] ) ;
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}
break ;
}
}
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return realpercent ;
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}
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}
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void ShutterInit ( void )
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{
shutters_present = 0 ;
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Shutter . mask = 0 ;
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//Initialize to get relay that changed
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Shutter . old_power = power ;
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bool relay_in_interlock = false ;
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// if shutter 4 is unused
if ( Settings . shutter_startrelay [ MAX_SHUTTERS ] = = 0 ) {
Shutter . max_pwm_frequency = Settings . shuttercoeff [ 4 ] [ 3 ] > 0 ? Settings . shuttercoeff [ 4 ] [ 3 ] : Shutter . max_pwm_frequency ;
}
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for ( uint32_t i = 0 ; i < MAX_SHUTTERS ; i + + ) {
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// set startrelay to 1 on first init, but only to shutter 1. 90% usecase
Settings . shutter_startrelay [ i ] = ( Settings . shutter_startrelay [ i ] = = 0 & & i = = 0 ? 1 : Settings . shutter_startrelay [ i ] ) ;
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if ( Settings . shutter_startrelay [ i ] & & ( Settings . shutter_startrelay [ i ] < 9 ) ) {
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shutters_present + + ;
// Determine shutter types
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Shutter . mask | = 3 < < ( Settings . shutter_startrelay [ i ] - 1 ) ;
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for ( uint32_t j = 0 ; j < MAX_INTERLOCKS * Settings . flag . interlock ; j + + ) { // CMND_INTERLOCK - Enable/disable interlock
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//AddLog_P2(LOG_LEVEL_INFO, PSTR("SHT: Interlock state i=%d %d, flag %d, , shuttermask %d, maskedIL %d"),i, Settings.interlock[i], Settings.flag.interlock,Shutter.mask, Settings.interlock[i]&Shutter.mask);
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if ( Settings . interlock [ j ] & & ( Settings . interlock [ j ] & Shutter . mask ) ) {
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//AddLog_P2(LOG_LEVEL_INFO, PSTR("SHT: Relay in Interlock group"));
relay_in_interlock = true ;
}
}
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if ( relay_in_interlock ) {
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if ( Settings . pulse_timer [ i ] > 0 ) {
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Shutter . mode = SHT_PULSE_OPEN__PULSE_CLOSE ;
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} else {
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Shutter . mode = SHT_OFF_OPEN__OFF_CLOSE ;
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}
} else {
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Shutter . mode = SHT_OFF_ON__OPEN_CLOSE ;
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if ( ( pin [ GPIO_PWM1 + i ] < 99 ) & & ( pin [ GPIO_CNTR1 + i ] < 99 ) ) {
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Shutter . mode = SHT_OFF_ON__OPEN_CLOSE_STEPPER ;
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Shutter . pwm_frequency [ i ] = 0 ;
Shutter . accelerator [ i ] = 0 ;
analogWriteFreq ( Shutter . pwm_frequency [ i ] ) ;
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analogWrite ( pin [ GPIO_PWM1 + i ] , 50 ) ;
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}
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}
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TickerShutter . attach_ms ( 50 , ShutterRtc50mS ) ;
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// default the 50 percent should not have any impact without changing it. set to 60
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Settings . shutter_set50percent [ i ] = ( Settings . shutter_set50percent [ i ] > 0 ) ? Settings . shutter_set50percent [ i ] : 50 ;
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// use 10 sec. as default to allow everybody to play without deep initialize
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Shutter . open_time [ i ] = ( Settings . shutter_opentime [ i ] > 0 ) ? Settings . shutter_opentime [ i ] : 100 ;
Shutter . close_time [ i ] = ( Settings . shutter_closetime [ i ] > 0 ) ? Settings . shutter_closetime [ i ] : 100 ;
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// Update Calculation 20 because time interval is 0.05 sec
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Shutter . open_max [ i ] = 200 * Shutter . open_time [ i ] ;
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Shutter . close_velocity [ i ] = Shutter . open_max [ i ] / Shutter . close_time [ i ] / 2 ;
Shutter . max_close_pwm_frequency [ i ] = Shutter . max_pwm_frequency * Shutter . open_time [ i ] / Shutter . close_time [ i ] ;
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AddLog_P2 ( LOG_LEVEL_DEBUG , PSTR ( " SHT: Shutter %d Closefreq: %d " ) , i , Shutter . max_close_pwm_frequency [ i ] ) ;
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// calculate a ramp slope at the first 5 percent to compensate that shutters move with down part later than the upper part
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if ( Settings . shutter_set50percent [ i ] ! = 50 ) {
Settings . shuttercoeff [ 1 ] [ i ] = Shutter . open_max [ i ] * ( 100 - Settings . shutter_set50percent [ i ] ) / 5000 ;
Settings . shuttercoeff [ 0 ] [ i ] = Shutter . open_max [ i ] - ( Settings . shuttercoeff [ 1 ] [ i ] * 100 ) ;
Settings . shuttercoeff [ 2 ] [ i ] = ( Settings . shuttercoeff [ 0 ] [ i ] + 5 * Settings . shuttercoeff [ 1 ] [ i ] ) / 5 ;
}
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Shutter . mask | = 3 < < ( Settings . shutter_startrelay [ i ] - 1 ) ;
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Shutter . real_position [ i ] = ShutterPercentToRealPosition ( Settings . shutter_position [ i ] , i ) ;
//Shutter.real_position[i] = Settings.shutter_position[i] <= 5 ? Settings.shuttercoeff[2][i] * Settings.shutter_position[i] : Settings.shuttercoeff[1][i] * Settings.shutter_position[i] + Settings.shuttercoeff[0,i];
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Shutter . start_position [ i ] = Shutter . target_position [ i ] = Shutter . real_position [ i ] ;
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Shutter . motordelay [ i ] = Settings . shutter_motordelay [ i ] ;
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char shutter_open_chr [ 10 ] ;
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dtostrfd ( ( float ) Shutter . open_time [ i ] / 10 , 1 , shutter_open_chr ) ;
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char shutter_close_chr [ 10 ] ;
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dtostrfd ( ( float ) Shutter . close_time [ i ] / 10 , 1 , shutter_close_chr ) ;
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AddLog_P2 ( LOG_LEVEL_INFO , PSTR ( " SHT: Shutter %d (Relay:%d): Init. Pos: %d [%d %%], Open Vel.: 100, Close Vel.: %d , Max Way: %d, Opentime %s [s], Closetime %s [s], CoeffCalc: c0: %d, c1 %d, c2: %d, c3: %d, c4: %d, binmask %d, is inverted %d, is locked %d, end stop time enabled %d, webButtons inverted %d, shuttermode %d, motordelay %d " ) ,
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i + 1 , Settings . shutter_startrelay [ i ] , Shutter . real_position [ i ] , Settings . shutter_position [ i ] , Shutter . close_velocity [ i ] , Shutter . open_max [ i ] , shutter_open_chr , shutter_close_chr ,
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Settings . shuttercoeff [ 0 ] [ i ] , Settings . shuttercoeff [ 1 ] [ i ] , Settings . shuttercoeff [ 2 ] [ i ] , Settings . shuttercoeff [ 3 ] [ i ] , Settings . shuttercoeff [ 4 ] [ i ] ,
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Shutter . mask , ( Settings . shutter_options [ i ] & 1 ) ? 1 : 0 , ( Settings . shutter_options [ i ] & 2 ) ? 1 : 0 , ( Settings . shutter_options [ i ] & 4 ) ? 1 : 0 , ( Settings . shutter_options [ i ] & 8 ) ? 1 : 0 , Shutter . mode , Shutter . motordelay [ i ] ) ;
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} else {
// terminate loop at first INVALID shutter.
break ;
}
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ShutterLimitRealAndTargetPositions ( i ) ;
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Settings . shutter_accuracy = 1 ;
}
}
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void ShutterReportPosition ( bool always )
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{
Response_P ( PSTR ( " { " ) ) ;
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rules_flag . shutter_moving = 0 ;
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for ( uint32_t i = 0 ; i < shutters_present ; i + + ) {
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//AddLog_P2(LOG_LEVEL_INFO, PSTR("SHT: Shutter %d: Real Pos: %d"), i+1,Shutter.real_position[i]);
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uint32_t position = ShutterRealToPercentPosition ( Shutter . real_position [ i ] , i ) ;
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if ( Shutter . direction [ i ] ! = 0 ) {
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rules_flag . shutter_moving = 1 ;
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ShutterLogPos ( i ) ;
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}
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if ( i ) { ResponseAppend_P ( PSTR ( " , " ) ) ; }
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uint32_t target = ShutterRealToPercentPosition ( Shutter . target_position [ i ] , i ) ;
ResponseAppend_P ( JSON_SHUTTER_POS , i + 1 , ( Settings . shutter_options [ i ] & 1 ) ? 100 - position : position , Shutter . direction [ i ] , ( Settings . shutter_options [ i ] & 1 ) ? 100 - target : target ) ;
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}
ResponseJsonEnd ( ) ;
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if ( always | | ( rules_flag . shutter_moving ) ) {
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MqttPublishPrefixTopic_P ( RESULT_OR_STAT , PSTR ( D_PRFX_SHUTTER ) ) ;
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//XdrvRulesProcess(); //removed because to many exceptions and reboots.
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}
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//AddLog_P2(LOG_LEVEL_DEBUG, PSTR("SHT: rules_flag.shutter_moving: %d, moved %d"), rules_flag.shutter_moving, rules_flag.shutter_moved);
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}
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void ShutterLimitRealAndTargetPositions ( uint32_t i ) {
if ( Shutter . real_position [ i ] < 0 ) Shutter . real_position [ i ] = 0 ;
if ( Shutter . real_position [ i ] > Shutter . open_max [ i ] ) Shutter . real_position [ i ] = Shutter . open_max [ i ] ;
if ( Shutter . target_position [ i ] < 0 ) Shutter . target_position [ i ] = 0 ;
if ( Shutter . target_position [ i ] > Shutter . open_max [ i ] ) Shutter . target_position [ i ] = Shutter . open_max [ i ] ;
}
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void ShutterUpdatePosition ( void )
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{
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char scommand [ CMDSZ ] ;
char stopic [ TOPSZ ] ;
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for ( uint32_t i = 0 ; i < shutters_present ; i + + ) {
if ( Shutter . direction [ i ] ! = 0 ) {
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int32_t stop_position_delta = 20 ;
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// Calculate position with counter. Much more accurate and no need for motordelay workaround
// adding some steps to stop early
Shutter . real_position [ i ] = ShutterCounterBasedPosition ( i ) ;
if ( ! Shutter . start_reported ) {
ShutterReportPosition ( true ) ;
XdrvRulesProcess ( ) ;
Shutter . start_reported = 1 ;
}
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if ( Shutter . mode = = SHT_OFF_ON__OPEN_CLOSE_STEPPER ) {
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int32_t max_frequency = Shutter . direction [ i ] = = 1 ? Shutter . max_pwm_frequency : Shutter . max_close_pwm_frequency [ i ] ;
int32_t max_freq_change_per_sec = Shutter . max_pwm_frequency * steps_per_second / ( Shutter . motordelay [ i ] > 0 ? Shutter . motordelay [ i ] : 1 ) ;
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int32_t min_runtime_ms = Shutter . pwm_frequency [ i ] * 1000 / max_freq_change_per_sec ;
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int32_t velocity = Shutter . direction [ i ] = = 1 ? 100 : Shutter . close_velocity [ i ] ;
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int32_t minstopway = min_runtime_ms * velocity / 100 * Shutter . pwm_frequency [ i ] / max_frequency * Shutter . direction [ i ] ;
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int32_t next_possible_stop = Shutter . real_position [ i ] + minstopway ;
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stop_position_delta = 200 * Shutter . pwm_frequency [ i ] / max_frequency + Shutter . direction [ i ] * ( next_possible_stop - Shutter . target_position [ i ] ) ;
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//Shutter.accelerator[i] = tmin(tmax(max_freq_change_per_sec*(100-(Shutter.direction[i]*(Shutter.target_position[i]-next_possible_stop) ))/2000 , max_freq_change_per_sec*9/200), max_freq_change_per_sec*11/200);
//int32_t act_freq_change = max_freq_change_per_sec/20;
AddLog_P2 ( LOG_LEVEL_DEBUG_MORE , PSTR ( " SHT: time: %d, velocity %d, minstopway %d,cur_freq %d, max_frequency %d, act_freq_change %d, min_runtime_ms %d, act.pos %d, next_stop %d, target: %d " ) , Shutter . time [ i ] , velocity , minstopway ,
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Shutter . pwm_frequency [ i ] , max_frequency , Shutter . accelerator [ i ] , min_runtime_ms , Shutter . real_position [ i ] , next_possible_stop , Shutter . target_position [ i ] ) ;
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if ( Shutter . accelerator [ i ] < 0 | | next_possible_stop * Shutter . direction [ i ] > ( Shutter . target_position [ i ] - ( 100 * Shutter . direction [ i ] ) ) * Shutter . direction [ i ] ) {
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Shutter . accelerator [ i ] = - tmin ( tmax ( max_freq_change_per_sec * ( 100 - ( Shutter . direction [ i ] * ( Shutter . target_position [ i ] - next_possible_stop ) ) ) / 2000 , max_freq_change_per_sec * 9 / 200 ) , max_freq_change_per_sec * 11 / 200 ) ;
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//AddLog_P2(LOG_LEVEL_DEBUG_MORE, PSTR("SHT: Ramp down: acc: %d"), Shutter.accelerator[i]);
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} else if ( Shutter . accelerator [ i ] > 0 & & Shutter . pwm_frequency [ i ] = = max_frequency ) {
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Shutter . accelerator [ i ] = 0 ;
}
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} else {
Shutter . real_position [ i ] = Shutter . start_position [ i ] + ( ( Shutter . time [ i ] - Shutter . motordelay [ i ] ) * ( Shutter . direction [ i ] > 0 ? 100 : - Shutter . close_velocity [ i ] ) ) ;
}
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if ( Shutter . real_position [ i ] * Shutter . direction [ i ] + stop_position_delta > = Shutter . target_position [ i ] * Shutter . direction [ i ] ) {
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// calculate relay number responsible for current movement.
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//AddLog_P2(LOG_LEVEL_DEBUG, PSTR("SHT: Stop Condition detected: real: %d, Target: %d, direction: %d"),Shutter.real_position[i], Shutter.target_position[i],Shutter.direction[i]);
uint8_t cur_relay = Settings . shutter_startrelay [ i ] + ( Shutter . direction [ i ] = = 1 ? 0 : 1 ) ;
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int16_t missing_steps ;
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switch ( Shutter . mode ) {
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case SHT_PULSE_OPEN__PULSE_CLOSE :
// we have a momentary switch here. Needs additional pulse on same relay after the end
if ( SRC_PULSETIMER = = last_source | | SRC_SHUTTER = = last_source | | SRC_WEBGUI = = last_source ) {
ExecuteCommandPower ( cur_relay , 1 , SRC_SHUTTER ) ;
} else {
last_source = SRC_SHUTTER ;
}
break ;
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case SHT_OFF_ON__OPEN_CLOSE_STEPPER :
missing_steps = ( ( Shutter . target_position [ i ] - Shutter . start_position [ i ] ) * Shutter . direction [ i ] * Shutter . max_pwm_frequency / 2000 ) - RtcSettings . pulse_counter [ i ] ;
//prepare for stop PWM
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AddLog_P2 ( LOG_LEVEL_DEBUG , PSTR ( " SHT: Remain steps %d, counter %d, freq %d " ) , missing_steps , RtcSettings . pulse_counter [ i ] , Shutter . pwm_frequency [ i ] ) ;
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Shutter . accelerator [ i ] = 0 ;
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Shutter . pwm_frequency [ i ] = Shutter . pwm_frequency [ i ] > 250 ? 250 : Shutter . pwm_frequency [ i ] ;
analogWriteFreq ( Shutter . pwm_frequency [ i ] ) ;
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analogWrite ( pin [ GPIO_PWM1 + i ] , 50 ) ;
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Shutter . pwm_frequency [ i ] = 0 ;
analogWriteFreq ( Shutter . pwm_frequency [ i ] ) ;
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while ( RtcSettings . pulse_counter [ i ] < ( uint32_t ) ( Shutter . target_position [ i ] - Shutter . start_position [ i ] ) * Shutter . direction [ i ] * Shutter . max_pwm_frequency / 2000 ) {
delay ( 1 ) ;
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}
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analogWrite ( pin [ GPIO_PWM1 + i ] , 0 ) ;
Shutter . real_position [ i ] = ShutterCounterBasedPosition ( i ) ;
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AddLog_P2 ( LOG_LEVEL_DEBUG , PSTR ( " SHT: Real %d, pulsecount %d, start %d " ) , Shutter . real_position [ i ] , RtcSettings . pulse_counter [ i ] , Shutter . start_position [ i ] ) ;
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if ( ( 1 < < ( Settings . shutter_startrelay [ i ] - 1 ) ) & power ) {
ExecuteCommandPower ( Settings . shutter_startrelay [ i ] , 0 , SRC_SHUTTER ) ;
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ExecuteCommandPower ( Settings . shutter_startrelay [ i ] + 1 , 0 , SRC_SHUTTER ) ;
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}
break ;
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case SHT_OFF_ON__OPEN_CLOSE :
if ( ( 1 < < ( Settings . shutter_startrelay [ i ] - 1 ) ) & power ) {
ExecuteCommandPower ( Settings . shutter_startrelay [ i ] , 0 , SRC_SHUTTER ) ;
ExecuteCommandPower ( Settings . shutter_startrelay [ i ] + 1 , 0 , SRC_SHUTTER ) ;
}
break ;
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case SHT_OFF_OPEN__OFF_CLOSE :
// avoid switching OFF a relay already OFF
if ( ( 1 < < ( cur_relay - 1 ) ) & power ) {
// Relay is on and need to be switched off.
ExecuteCommandPower ( cur_relay , 0 , SRC_SHUTTER ) ;
}
break ;
}
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ShutterLimitRealAndTargetPositions ( i ) ;
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Settings . shutter_position [ i ] = ShutterRealToPercentPosition ( Shutter . real_position [ i ] , i ) ;
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ShutterLogPos ( i ) ;
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Shutter . start_position [ i ] = Shutter . real_position [ i ] ;
// sending MQTT result to broker
snprintf_P ( scommand , sizeof ( scommand ) , PSTR ( D_SHUTTER " %d " ) , i + 1 ) ;
GetTopic_P ( stopic , STAT , mqtt_topic , scommand ) ;
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Response_P ( " %d " , ( Settings . shutter_options [ i ] & 1 ) ? 100 - Settings . shutter_position [ i ] : Settings . shutter_position [ i ] ) ;
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MqttPublish ( stopic , Settings . flag . mqtt_power_retain ) ; // CMND_POWERRETAIN
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Shutter . direction [ i ] = 0 ;
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ShutterReportPosition ( true ) ;
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rules_flag . shutter_moved = 1 ;
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XdrvRulesProcess ( ) ;
}
}
}
}
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bool ShutterState ( uint32_t device )
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{
device - - ;
device & = 3 ;
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return ( Settings . flag3 . shutter_mode & & // SetOption80 - Enable shutter support
( Shutter . mask & ( 1 < < ( Settings . shutter_startrelay [ device ] - 1 ) ) ) ) ;
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}
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void ShutterStartInit ( uint32_t i , int32_t direction , int32_t target_pos )
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{
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//AddLog_P2(LOG_LEVEL_DEBUG, PSTR("SHT: dir %d, delta1 %d, delta2 %d, grant %d"),direction, (Shutter.open_max[i] - Shutter.real_position[i]) / Shutter.close_velocity[i], Shutter.real_position[i] / Shutter.close_velocity[i], 2+Shutter.motordelay[i]);
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if ( ( ( 1 = = direction ) & & ( ( Shutter . open_max [ i ] - Shutter . real_position [ i ] ) / 100 < = 2 ) )
| | ( ( - 1 = = direction ) & & ( Shutter . real_position [ i ] / Shutter . close_velocity [ i ] < = 2 ) ) ) {
Shutter . skip_relay_change = 1 ;
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} else {
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if ( Shutter . mode = = SHT_OFF_ON__OPEN_CLOSE_STEPPER ) {
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Shutter . pwm_frequency [ i ] = 0 ;
analogWriteFreq ( Shutter . pwm_frequency [ i ] ) ;
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analogWrite ( pin [ GPIO_PWM1 + i ] , 0 ) ;
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RtcSettings . pulse_counter [ i ] = 0 ;
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Shutter . accelerator [ i ] = Shutter . max_pwm_frequency / ( Shutter . motordelay [ i ] > 0 ? Shutter . motordelay [ i ] : 1 ) ;
AddLog_P2 ( LOG_LEVEL_DEBUG , PSTR ( " SHT: Ramp up: %d " ) , Shutter . accelerator [ i ] ) ;
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}
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Shutter . target_position [ i ] = target_pos ;
Shutter . start_position [ i ] = Shutter . real_position [ i ] ;
Shutter . time [ i ] = 0 ;
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Shutter . skip_relay_change = 0 ;
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Shutter . direction [ i ] = direction ;
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rules_flag . shutter_moving = 1 ;
rules_flag . shutter_moved = 0 ;
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Shutter . start_reported = 0 ;
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//AddLog_P2(LOG_LEVEL_DEBUG, PSTR("SHT: real %d, start %d, counter %d, max_freq %d, dir %d, freq %d"),Shutter.real_position[i], Shutter.start_position[i] ,RtcSettings.pulse_counter[i],Shutter.max_pwm_frequency , Shutter.direction[i] ,Shutter.max_pwm_frequency );
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}
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//AddLog_P2(LOG_LEVEL_INFO, PSTR("SHT: Start shutter: %d from %d to %d in directin %d"), i, Shutter.start_position[i], Shutter.target_position[i], Shutter.direction[i]);
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}
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void ShutterWaitForMotorStop ( uint32_t i )
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{
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AddLog_P2 ( LOG_LEVEL_INFO , PSTR ( " SHT: Wait for Motorstop.. " ) ) ;
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if ( ( SHT_OFF_ON__OPEN_CLOSE = = Shutter . mode ) | | ( SHT_OFF_ON__OPEN_CLOSE_STEPPER = = Shutter . mode ) ) {
if ( SHT_OFF_ON__OPEN_CLOSE_STEPPER = = Shutter . mode ) {
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//AddLog_P2(LOG_LEVEL_INFO, PSTR("SHT: Frequency change %d"), Shutter.pwm_frequency);
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while ( Shutter . pwm_frequency [ i ] > 0 ) {
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//AddLog_P2(LOG_LEVEL_DEBUG_MORE, PSTR("SHT: Frequency: %ld, delta: %d"), Shutter.pwm_frequency[i], (int32_t)((Shutter.direction[i] == 1 ? Shutter.max_pwm_frequency : Shutter.max_close_pwm_frequency[i])/(Shutter.motordelay[i]+1)) );
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Shutter . pwm_frequency [ i ] = tmax ( Shutter . pwm_frequency [ i ] - ( ( Shutter . direction [ i ] = = 1 ? Shutter . max_pwm_frequency : Shutter . max_close_pwm_frequency [ i ] ) / ( Shutter . motordelay [ i ] + 1 ) ) , 0 ) ;
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//AddLog_P2(LOG_LEVEL_DEBUG_MORE, PSTR("SHT: Frequency: %ld"), Shutter.pwm_frequency[i]);
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analogWriteFreq ( Shutter . pwm_frequency [ i ] ) ;
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analogWrite ( pin [ GPIO_PWM1 + i ] , 50 ) ;
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delay ( 50 ) ;
}
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analogWrite ( pin [ GPIO_PWM1 + i ] , 0 ) ;
Shutter . real_position [ i ] = ShutterCounterBasedPosition ( i ) ;
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} else {
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ExecuteCommandPower ( Settings . shutter_startrelay [ i ] , 0 , SRC_SHUTTER ) ;
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delay ( MOTOR_STOP_TIME ) ;
}
} else {
delay ( MOTOR_STOP_TIME ) ;
}
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}
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int32_t ShutterCounterBasedPosition ( uint32_t i )
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{
return ( ( int32_t ) RtcSettings . pulse_counter [ i ] * Shutter . direction [ i ] * 2000 / Shutter . max_pwm_frequency ) + Shutter . start_position [ i ] ;
}
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void ShutterRelayChanged ( void )
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{
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// Shutter.switched_relay = binary relay that was recently changed and cause an Action
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// powerstate_local = binary powermatrix and relays from shutter: 0..3
// relays_changed = bool if one of the relays that belong to the shutter changed not by shutter or pulsetimer
char stemp1 [ 10 ] ;
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for ( uint32_t i = 0 ; i < shutters_present ; i + + ) {
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power_t powerstate_local = ( power > > ( Settings . shutter_startrelay [ i ] - 1 ) ) & 3 ;
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//uint8 manual_relays_changed = ((Shutter.switched_relay >> (Settings.shutter_startrelay[i] -1)) & 3) && SRC_IGNORE != last_source && SRC_SHUTTER != last_source && SRC_PULSETIMER != last_source ;
uint8 manual_relays_changed = ( ( Shutter . switched_relay > > ( Settings . shutter_startrelay [ i ] - 1 ) ) & 3 ) & & SRC_SHUTTER ! = last_source & & SRC_PULSETIMER ! = last_source ;
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//AddLog_P2(LOG_LEVEL_DEBUG, PSTR("SHT: Shutter %d: source: %s, powerstate_local %ld, Shutter.switched_relay %d, manual change %d"), i+1, GetTextIndexed(stemp1, sizeof(stemp1), last_source, kCommandSource), powerstate_local,Shutter.switched_relay,manual_relays_changed);
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if ( manual_relays_changed ) {
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//Shutter.skip_relay_change = true;
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ShutterLimitRealAndTargetPositions ( i ) ;
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if ( Shutter . mode = = SHT_OFF_ON__OPEN_CLOSE | | Shutter . mode = = SHT_OFF_ON__OPEN_CLOSE_STEPPER ) {
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ShutterWaitForMotorStop ( i ) ;
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switch ( powerstate_local ) {
case 1 :
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ShutterStartInit ( i , 1 , Shutter . open_max [ i ] ) ;
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break ;
case 3 :
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ShutterStartInit ( i , - 1 , 0 ) ;
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break ;
default :
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//AddLog_P2(LOG_LEVEL_DEBUG, PSTR("SHT: Shutter %d: Switch OFF motor."),i);
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Shutter . target_position [ i ] = Shutter . real_position [ i ] ;
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}
} else {
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if ( Shutter . direction [ i ] ! = 0 & & ( ! powerstate_local | | ( powerstate_local & & Shutter . mode = = SHT_PULSE_OPEN__PULSE_CLOSE ) ) ) {
Shutter . target_position [ i ] = Shutter . real_position [ i ] ;
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AddLog_P2 ( LOG_LEVEL_DEBUG , PSTR ( " SHT: Shutter %d: Switch OFF motor. Target: %ld, source: %s, powerstate_local %ld, Shutter.switched_relay %d, manual change %d " ) , i + 1 , Shutter . target_position [ i ] , GetTextIndexed ( stemp1 , sizeof ( stemp1 ) , last_source , kCommandSource ) , powerstate_local , Shutter . switched_relay , manual_relays_changed ) ;
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} else {
last_source = SRC_SHUTTER ; // avoid switch off in the next loop
if ( powerstate_local = = 2 ) { // testing on CLOSE relay, if ON
// close with relay two
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ShutterWaitForMotorStop ( i ) ;
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ShutterStartInit ( i , - 1 , 0 ) ;
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} else {
// opens with relay one
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ShutterWaitForMotorStop ( i ) ;
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ShutterStartInit ( i , 1 , Shutter . open_max [ i ] ) ;
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}
}
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AddLog_P2 ( LOG_LEVEL_DEBUG , PSTR ( " SHT: Shutter %d: Target: %ld, powerstatelocal %d " ) , i + 1 , Shutter . target_position [ i ] , powerstate_local ) ;
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}
}
}
}
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bool ShutterButtonIsSimultaneousHold ( uint32_t button_index , uint32_t shutter_index ) {
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// check for simultaneous shutter button hold
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uint32 min_shutterbutton_hold_timer = - 1 ; // -1 == max(uint32)
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for ( uint32_t i = 0 ; i < MAX_KEYS ; i + + ) {
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if ( ( button_index ! = i ) & & ( Settings . shutter_button [ i ] & ( 1 < < 31 ) ) & & ( ( Settings . shutter_button [ i ] & 0x03 ) = = shutter_index ) & & ( Button . hold_timer [ i ] < min_shutterbutton_hold_timer ) )
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min_shutterbutton_hold_timer = Button . hold_timer [ i ] ;
}
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return ( ( - 1 ! = min_shutterbutton_hold_timer ) & & ( min_shutterbutton_hold_timer > ( Button . hold_timer [ button_index ] > > 1 ) ) ) ;
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}
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void ShutterButtonHandler ( void )
{
uint8_t buttonState = SHT_NOT_PRESSED ;
uint8_t button = XdrvMailbox . payload ;
uint8_t press_index ;
uint32_t button_index = XdrvMailbox . index ;
uint8_t shutter_index = Settings . shutter_button [ button_index ] & 0x03 ;
uint16_t loops_per_second = 1000 / Settings . button_debounce ; // ButtonDebounce (50)
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if ( ( PRESSED = = button ) & & ( NOT_PRESSED = = Button . last_state [ button_index ] ) ) {
if ( Settings . flag . button_single ) { // SetOption13 (0) - Allow only single button press for immediate action
buttonState = SHT_PRESSED_MULTI ;
press_index = 1 ;
} else {
if ( ( Shutter . direction [ shutter_index ] ) & & ( Button . press_counter [ button_index ] = = 0 ) ) {
buttonState = SHT_PRESSED_IMMEDIATE ;
press_index = 1 ;
Button . press_counter [ button_index ] = 99 ; // Remember to discard further action for press & hold within button timings
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} else {
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Button . press_counter [ button_index ] = ( Button . window_timer [ button_index ] ) ? Button . press_counter [ button_index ] + 1 : 1 ;
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// Button.window_timer[button_index] = (Button.press_counter[button_index]==1) ? loops_per_second / 2 : loops_per_second; // 0.5 second multi press window after 1st press, 1s afterwards
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Button . window_timer [ button_index ] = ( loops_per_second > > 2 ) * 3 ; // 0.75 second multi press window
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}
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}
blinks = 201 ;
}
if ( NOT_PRESSED = = button ) {
Button . hold_timer [ button_index ] = 0 ;
} else {
Button . hold_timer [ button_index ] + + ;
if ( ! Settings . flag . button_single ) { // SetOption13 (0) - Allow only single button press for immediate action
if ( Settings . param [ P_HOLD_IGNORE ] > 0 ) { // SetOption40 (0) - Do not ignore button hold
if ( Button . hold_timer [ button_index ] > loops_per_second * Settings . param [ P_HOLD_IGNORE ] / 10 ) {
Button . hold_timer [ button_index ] = 0 ; // Reset button hold counter to stay below hold trigger
Button . press_counter [ button_index ] = 0 ; // Discard button press to disable functionality
}
}
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if ( ( Button . press_counter [ button_index ] < 99 ) & & ( Button . hold_timer [ button_index ] = = loops_per_second * Settings . param [ P_HOLD_TIME ] / 10 ) ) { // press still valid && SetOption32 (40) - Button hold
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// check for simultaneous shutter button hold
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if ( ShutterButtonIsSimultaneousHold ( button_index , shutter_index ) ) {
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// simultaneous shutter button hold detected
for ( uint32_t i = 0 ; i < MAX_KEYS ; i + + )
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if ( ( Settings . shutter_button [ i ] & ( 1 < < 31 ) ) & & ( ( Settings . shutter_button [ i ] & 0x03 ) = = shutter_index ) )
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Button . press_counter [ i ] = 99 ; // Remember to discard further action for press & hold within button timings
press_index = 0 ;
buttonState = SHT_PRESSED_HOLD_SIMULTANEOUS ;
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}
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if ( Button . press_counter [ button_index ] < 99 ) {
press_index = 0 ;
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buttonState = SHT_PRESSED_HOLD ;
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}
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Button . press_counter [ button_index ] = 0 ;
}
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if ( ( Button . press_counter [ button_index ] = = 0 ) & & ( Button . hold_timer [ button_index ] = = loops_per_second * IMMINENT_RESET_FACTOR * Settings . param [ P_HOLD_TIME ] / 10 ) ) { // SetOption32 (40) - Button held for factor times longer
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press_index = - 1 ;
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// check for simultaneous shutter button extend hold
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if ( ShutterButtonIsSimultaneousHold ( button_index , shutter_index ) ) {
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// simultaneous shutter button extend hold detected
buttonState = SHT_PRESSED_EXT_HOLD_SIMULTANEOUS ;
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} else {
buttonState = SHT_PRESSED_EXT_HOLD ;
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}
}
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}
}
if ( ! Settings . flag . button_single ) { // SetOption13 (0) - Allow multi-press
if ( Button . window_timer [ button_index ] ) {
Button . window_timer [ button_index ] - - ;
} else {
if ( ! restart_flag & & ! Button . hold_timer [ button_index ] & & ( Button . press_counter [ button_index ] > 0 ) ) {
if ( Button . press_counter [ button_index ] < 99 ) {
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// check for simultaneous shutter button press
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uint32 min_shutterbutton_press_counter = - 1 ; // -1 == max(uint32)
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for ( uint32_t i = 0 ; i < MAX_KEYS ; i + + ) {
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AddLog_P2 ( LOG_LEVEL_DEBUG , PSTR ( " SHT: Settings.shutter_button[i] %ld, shutter_index %d, Button.press_counter[i] %d, min_shutterbutton_press_counter %d, i %d " ) , Settings . shutter_button [ i ] , shutter_index , Button . press_counter [ i ] , min_shutterbutton_press_counter , i ) ;
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if ( ( button_index ! = i ) & & ( Settings . shutter_button [ i ] & ( 1 < < 31 ) ) & & ( ( Settings . shutter_button [ i ] & 0x03 ) = = shutter_index ) & & ( i ! = button_index ) & & ( Button . press_counter [ i ] < min_shutterbutton_press_counter ) ) {
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min_shutterbutton_press_counter = Button . press_counter [ i ] ;
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AddLog_P2 ( LOG_LEVEL_DEBUG , PSTR ( " SHT: min_shutterbutton_press_counter %d " ) , min_shutterbutton_press_counter ) ;
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}
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}
if ( min_shutterbutton_press_counter = = Button . press_counter [ button_index ] ) {
// simultaneous shutter button press detected
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AddLog_P2 ( LOG_LEVEL_DEBUG , PSTR ( " SHT: simultanous presss deteced " ) ) ;
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press_index = Button . press_counter [ button_index ] ;
for ( uint32_t i = 0 ; i < MAX_KEYS ; i + + )
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if ( ( Settings . shutter_button [ i ] & ( 1 < < 31 ) ) & & ( ( Settings . shutter_button [ i ] & 0x03 ) ! = shutter_index ) )
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Button . press_counter [ i ] = 99 ; // Remember to discard further action for press & hold within button timings
buttonState = SHT_PRESSED_MULTI_SIMULTANEOUS ;
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}
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if ( ( buttonState ! = SHT_PRESSED_MULTI_SIMULTANEOUS ) & & ( Button . press_counter [ button_index ] < 99 ) ) {
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// no simultaneous shutter button press >3 detected
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press_index = Button . press_counter [ button_index ] ;
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buttonState = SHT_PRESSED_MULTI ;
}
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}
Button . press_counter [ button_index ] = 0 ;
}
}
}
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if ( buttonState ! = SHT_NOT_PRESSED ) {
if ( ( ! Settings . flag . button_restrict ) & & ( ( ( press_index > = 5 ) & & ( press_index < = 7 ) ) | | ( buttonState = = SHT_PRESSED_EXT_HOLD ) | | ( buttonState = = SHT_PRESSED_EXT_HOLD_SIMULTANEOUS ) ) ) {
// check number of buttons for this shutter
uint8_t shutter_index_num_buttons = 0 ;
for ( uint32_t i = 0 ; i < MAX_KEYS ; i + + ) {
if ( ( Settings . shutter_button [ i ] & ( 1 < < 31 ) ) & & ( ( Settings . shutter_button [ i ] & 0x03 ) = = shutter_index ) ) {
shutter_index_num_buttons + + ;
}
}
if ( ( buttonState = = SHT_PRESSED_MULTI_SIMULTANEOUS ) | | ( ( shutter_index_num_buttons = = 1 ) & & ( buttonState = = SHT_PRESSED_MULTI ) ) ) {
// 5x..7x && no SetOption1 (0) checked above
// simultaneous or stand alone button press 5x, 6x, 7x detected
char scmnd [ 20 ] ;
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snprintf_P ( scmnd , sizeof ( scmnd ) , PSTR ( D_CMND_WIFICONFIG " 2 " ) ) ;
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ExecuteCommand ( scmnd , SRC_BUTTON ) ;
return ;
} else if ( ( buttonState = = SHT_PRESSED_EXT_HOLD_SIMULTANEOUS ) | | ( ( shutter_index_num_buttons = = 1 ) & & ( buttonState = = SHT_PRESSED_EXT_HOLD ) ) ) {
// no SetOption1 (0) checked above
// simultaneous or stand alone button extended hold detected
char scmnd [ 20 ] ;
snprintf_P ( scmnd , sizeof ( scmnd ) , PSTR ( D_CMND_RESET " 1 " ) ) ;
ExecuteCommand ( scmnd , SRC_BUTTON ) ;
return ;
}
}
if ( buttonState < = SHT_PRESSED_IMMEDIATE ) {
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if ( Settings . shutter_startrelay [ shutter_index ] & & Settings . shutter_startrelay [ shutter_index ] < 9 ) {
uint8_t pos_press_index = ( buttonState = = SHT_PRESSED_HOLD ) ? 3 : ( press_index - 1 ) ;
if ( pos_press_index > 3 ) pos_press_index = 3 ;
AddLog_P2 ( LOG_LEVEL_DEBUG , PSTR ( " SHT: shutter %d, button %d = %d (single=1, double=2, tripple=3, hold=4) " ) , shutter_index + 1 , button_index + 1 , pos_press_index + 1 ) ;
XdrvMailbox . index = shutter_index + 1 ;
last_source = SRC_BUTTON ;
XdrvMailbox . data_len = 0 ;
char databuf [ 1 ] = " " ;
XdrvMailbox . data = databuf ;
XdrvMailbox . command = NULL ;
if ( buttonState = = SHT_PRESSED_IMMEDIATE ) {
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XdrvMailbox . payload = XdrvMailbox . index ;
CmndShutterStop ( ) ;
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} else {
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uint8_t position = ( Settings . shutter_button [ button_index ] > > ( 6 * pos_press_index + 2 ) ) & 0x03f ;
if ( position ) {
if ( Shutter . direction [ shutter_index ] ) {
XdrvMailbox . payload = XdrvMailbox . index ;
CmndShutterStop ( ) ;
} else {
XdrvMailbox . payload = position = ( position - 1 ) < < 1 ;
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//AddLog_P2(LOG_LEVEL_DEBUG, PSTR("SHT: shutter %d -> %d"), shutter_index+1, position);
if ( 102 = = position ) {
XdrvMailbox . payload = XdrvMailbox . index ;
CmndShutterToggle ( ) ;
} else {
CmndShutterPosition ( ) ;
}
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if ( Settings . shutter_button [ button_index ] & ( ( 0x01 < < 26 ) < < pos_press_index ) ) {
// MQTT broadcast to grouptopic
char scommand [ CMDSZ ] ;
char stopic [ TOPSZ ] ;
for ( uint32_t i = 0 ; i < MAX_SHUTTERS ; i + + ) {
if ( ( i = = shutter_index ) | | ( Settings . shutter_button [ button_index ] & ( 0x01 < < 30 ) ) ) {
snprintf_P ( scommand , sizeof ( scommand ) , PSTR ( " ShutterPosition%d " ) , i + 1 ) ;
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GetGroupTopic_P ( stopic , scommand , SET_MQTT_GRP_TOPIC ) ;
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Response_P ( " %d " , position ) ;
MqttPublish ( stopic , false ) ;
}
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} // for (uint32_t)
} // if (Settings.shutter)
} // ende else
} // if (position)
} // end else
} // if if (Settings.shutter_startrelay[shutter_index]
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}
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Response_P ( PSTR ( " { " ) ) ;
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ResponseAppend_P ( JSON_SHUTTER_BUTTON , shutter_index + 1 , ( buttonState < = SHT_PRESSED_EXT_HOLD ) ? ( button_index + 1 ) : 0 , press_index ) ;
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ResponseJsonEnd ( ) ;
MqttPublishPrefixTopic_P ( RESULT_OR_STAT , PSTR ( D_PRFX_SHUTTER ) ) ;
XdrvRulesProcess ( ) ;
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}
}
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void ShutterSetPosition ( uint32_t device , uint32_t position )
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{
char svalue [ 32 ] ; // Command and number parameter
snprintf_P ( svalue , sizeof ( svalue ) , PSTR ( D_PRFX_SHUTTER D_CMND_SHUTTER_POSITION " %d %d " ) , device , position ) ;
ExecuteCommand ( svalue , SRC_IGNORE ) ;
}
/*********************************************************************************************\
* Commands
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void CmndShutterOpen ( void )
{
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//AddLog_P2(LOG_LEVEL_INFO, PSTR("SHT: Payload open: %d, i %d"), XdrvMailbox.payload, XdrvMailbox.index);
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if ( ( 1 = = XdrvMailbox . index ) & & ( XdrvMailbox . payload ! = - 99 ) ) {
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XdrvMailbox . index = XdrvMailbox . payload ;
}
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XdrvMailbox . payload = 100 ;
last_source = SRC_WEBGUI ;
CmndShutterPosition ( ) ;
}
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void CmndShutterStopOpen ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
uint32_t index = XdrvMailbox . index - 1 ;
if ( Shutter . direction [ index ] ) {
CmndShutterStop ( ) ;
} else {
CmndShutterOpen ( ) ;
}
}
}
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void CmndShutterClose ( void )
{
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//AddLog_P2(LOG_LEVEL_INFO, PSTR("SHT: Payload close: %d, i %d"), XdrvMailbox.payload, XdrvMailbox.index);
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if ( ( 1 = = XdrvMailbox . index ) & & ( XdrvMailbox . payload ! = - 99 ) ) {
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XdrvMailbox . index = XdrvMailbox . payload ;
}
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XdrvMailbox . payload = 0 ;
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XdrvMailbox . data_len = 0 ;
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last_source = SRC_WEBGUI ;
CmndShutterPosition ( ) ;
}
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void CmndShutterStopClose ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
uint32_t index = XdrvMailbox . index - 1 ;
if ( Shutter . direction [ index ] ) {
CmndShutterStop ( ) ;
} else {
CmndShutterClose ( ) ;
}
}
}
void CmndShutterToggle ( void )
{
//AddLog_P2(LOG_LEVEL_INFO, PSTR("SHT: Payload toggle: %d, i %d"), XdrvMailbox.payload, XdrvMailbox.index);
if ( ( 1 = = XdrvMailbox . index ) & & ( XdrvMailbox . payload ! = - 99 ) ) {
XdrvMailbox . index = XdrvMailbox . payload ;
}
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
uint32_t index = XdrvMailbox . index - 1 ;
XdrvMailbox . payload = ( 50 < ShutterRealToPercentPosition ( Shutter . real_position [ index ] , index ) ) ? 0 : 100 ;
XdrvMailbox . data_len = 0 ;
last_source = SRC_WEBGUI ;
CmndShutterPosition ( ) ;
}
}
void CmndShutterStopToggle ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
uint32_t index = XdrvMailbox . index - 1 ;
if ( Shutter . direction [ index ] ) {
CmndShutterStop ( ) ;
} else {
CmndShutterToggle ( ) ;
}
}
}
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void CmndShutterStop ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
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if ( ! ( Settings . shutter_options [ XdrvMailbox . index - 1 ] & 2 ) ) {
if ( ( 1 = = XdrvMailbox . index ) & & ( XdrvMailbox . payload ! = - 99 ) ) {
XdrvMailbox . index = XdrvMailbox . payload ;
}
uint32_t i = XdrvMailbox . index - 1 ;
if ( Shutter . direction [ i ] ! = 0 ) {
AddLog_P2 ( LOG_LEVEL_INFO , PSTR ( " SHT: Stop moving %d: dir: %d " ) , XdrvMailbox . index , Shutter . direction [ i ] ) ;
// set stop position 10 steps ahead (0.5sec to allow normal stop)
int32_t temp_realpos = Shutter . start_position [ i ] + ( ( Shutter . time [ i ] + 10 ) * ( Shutter . direction [ i ] > 0 ? 100 : - Shutter . close_velocity [ i ] ) ) ;
XdrvMailbox . payload = ShutterRealToPercentPosition ( temp_realpos , i ) ;
//XdrvMailbox.payload = Settings.shuttercoeff[2][i] * 5 > temp_realpos ? temp_realpos / Settings.shuttercoeff[2][i] : (temp_realpos-Settings.shuttercoeff[0,i]) / Settings.shuttercoeff[1][i];
last_source = SRC_WEBGUI ;
CmndShutterPosition ( ) ;
} else {
if ( XdrvMailbox . command )
ResponseCmndDone ( ) ;
}
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} else {
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if ( XdrvMailbox . command )
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ResponseCmndIdxChar ( " Locked " ) ;
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}
}
}
void CmndShutterPosition ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
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if ( ! ( Settings . shutter_options [ XdrvMailbox . index - 1 ] & 2 ) ) {
uint32_t index = XdrvMailbox . index - 1 ;
//limit the payload
AddLog_P2 ( LOG_LEVEL_DEBUG , PSTR ( " SHT: Pos. in: payload %s (%d), payload %d, idx %d, src %d " ) , XdrvMailbox . data , XdrvMailbox . data_len , XdrvMailbox . payload , XdrvMailbox . index , last_source ) ;
// value 0 with data_len > 0 can mean Open
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// special handling fo UP,DOWN,TOGGLE,STOP command comming with payload -99
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if ( ( XdrvMailbox . data_len > 1 ) & & ( XdrvMailbox . payload < = 0 ) ) {
//UpperCase(XdrvMailbox.data, XdrvMailbox.data);
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if ( ! strcasecmp ( XdrvMailbox . data , D_CMND_SHUTTER_UP ) | | ! strcasecmp ( XdrvMailbox . data , D_CMND_SHUTTER_OPEN ) | | ( ( Shutter . direction [ index ] = = 0 ) & & ! strcasecmp ( XdrvMailbox . data , D_CMND_SHUTTER_STOPOPEN ) ) ) {
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CmndShutterOpen ( ) ;
return ;
}
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if ( ! strcasecmp ( XdrvMailbox . data , D_CMND_SHUTTER_DOWN ) | | ! strcasecmp ( XdrvMailbox . data , D_CMND_SHUTTER_CLOSE ) | | ( ( Shutter . direction [ index ] = = 0 ) & & ! strcasecmp ( XdrvMailbox . data , D_CMND_SHUTTER_STOPCLOSE ) ) ) {
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CmndShutterClose ( ) ;
return ;
}
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if ( ! strcasecmp ( XdrvMailbox . data , D_CMND_SHUTTER_TOGGLE ) ) {
CmndShutterToggle ( ) ;
return ;
}
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if ( ! strcasecmp ( XdrvMailbox . data , D_CMND_SHUTTER_STOP ) | | ( ( Shutter . direction [ index ] ) & & ( ! strcasecmp ( XdrvMailbox . data , D_CMND_SHUTTER_STOPOPEN ) | | ! strcasecmp ( XdrvMailbox . data , D_CMND_SHUTTER_STOPCLOSE ) ) ) ) {
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XdrvMailbox . payload = - 99 ;
CmndShutterStop ( ) ;
return ;
}
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}
2019-12-02 20:44:05 +00:00
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int8_t target_pos_percent = ( XdrvMailbox . payload < 0 ) ? ( XdrvMailbox . payload = = - 99 ? ShutterRealToPercentPosition ( Shutter . real_position [ index ] , index ) : 0 ) : ( ( XdrvMailbox . payload > 100 ) ? 100 : XdrvMailbox . payload ) ;
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// webgui still send also on inverted shutter the native position.
target_pos_percent = ( ( Settings . shutter_options [ index ] & 1 ) & & ( SRC_WEBGUI ! = last_source ) ) ? 100 - target_pos_percent : target_pos_percent ;
if ( XdrvMailbox . payload ! = - 99 ) {
//target_pos_percent = (Settings.shutter_options[index] & 1) ? 100 - target_pos_percent : target_pos_percent;
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Shutter . target_position [ index ] = ShutterPercentToRealPosition ( target_pos_percent , index ) ;
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//Shutter.accelerator[index] = Shutter.max_pwm_frequency / ((Shutter.motordelay[index] > 0) ? Shutter.motordelay[index] : 1);
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//Shutter.target_position[index] = XdrvMailbox.payload < 5 ? Settings.shuttercoeff[2][index] * XdrvMailbox.payload : Settings.shuttercoeff[1][index] * XdrvMailbox.payload + Settings.shuttercoeff[0,index];
AddLog_P2 ( LOG_LEVEL_DEBUG , PSTR ( " SHT: lastsource %d:, real %d, target %d, payload %d " ) , last_source , Shutter . real_position [ index ] , Shutter . target_position [ index ] , target_pos_percent ) ;
}
if ( ( target_pos_percent > = 0 ) & & ( target_pos_percent < = 100 ) & & abs ( Shutter . target_position [ index ] - Shutter . real_position [ index ] ) / Shutter . close_velocity [ index ] > 2 ) {
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if ( Settings . shutter_options [ index ] & 4 ) {
if ( 0 = = target_pos_percent ) Shutter . target_position [ index ] - = 1 * 2000 ;
if ( 100 = = target_pos_percent ) Shutter . target_position [ index ] + = 1 * 2000 ;
}
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int8_t new_shutterdirection = Shutter . real_position [ index ] < Shutter . target_position [ index ] ? 1 : - 1 ;
if ( Shutter . direction [ index ] = = - new_shutterdirection ) {
// direction need to be changed. on momentary switches first stop the Shutter
if ( SHT_PULSE_OPEN__PULSE_CLOSE = = Shutter . mode ) {
// code for momentary shutters only small switch on to stop Shutter
ExecuteCommandPower ( Settings . shutter_startrelay [ index ] + ( ( new_shutterdirection = = 1 ) ? 0 : 1 ) , 1 , SRC_SHUTTER ) ;
delay ( 100 ) ;
} else {
if ( SHT_OFF_OPEN__OFF_CLOSE = = Shutter . mode ) {
ExecuteCommandPower ( Settings . shutter_startrelay [ index ] + ( ( new_shutterdirection = = 1 ) ? 1 : 0 ) , 0 , SRC_SHUTTER ) ;
ShutterWaitForMotorStop ( index ) ;
}
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}
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}
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if ( Shutter . direction [ index ] ! = new_shutterdirection ) {
if ( ( SHT_OFF_ON__OPEN_CLOSE = = Shutter . mode ) | | ( SHT_OFF_ON__OPEN_CLOSE_STEPPER = = Shutter . mode ) ) {
//AddLog_P2(LOG_LEVEL_DEBUG, PSTR("SHT: Delay5 5s, xdrv %d"), XdrvMailbox.payload);
ShutterWaitForMotorStop ( index ) ;
ExecuteCommandPower ( Settings . shutter_startrelay [ index ] , 0 , SRC_SHUTTER ) ;
ShutterStartInit ( index , new_shutterdirection , Shutter . target_position [ index ] ) ;
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if ( Shutter . skip_relay_change = = 0 ) {
// Code for shutters with circuit safe configuration, switch the direction Relay
ExecuteCommandPower ( Settings . shutter_startrelay [ index ] + 1 , new_shutterdirection = = 1 ? 0 : 1 , SRC_SHUTTER ) ;
// power on
ExecuteCommandPower ( Settings . shutter_startrelay [ index ] , 1 , SRC_SHUTTER ) ;
}
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} else {
// now start the motor for the right direction, work for momentary and normal shutters.
AddLog_P2 ( LOG_LEVEL_INFO , PSTR ( " SHT: Start in dir %d " ) , Shutter . direction [ index ] ) ;
ShutterStartInit ( index , new_shutterdirection , Shutter . target_position [ index ] ) ;
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if ( Shutter . skip_relay_change = = 0 ) {
ExecuteCommandPower ( Settings . shutter_startrelay [ index ] + ( new_shutterdirection = = 1 ? 0 : 1 ) , 1 , SRC_SHUTTER ) ;
}
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//AddLog_P2(LOG_LEVEL_DEBUG, PSTR("SHT: Delay6 5s, xdrv %d"), XdrvMailbox.payload);
}
Shutter . switched_relay = 0 ;
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}
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} else {
target_pos_percent = ShutterRealToPercentPosition ( Shutter . real_position [ index ] , index ) ;
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ShutterReportPosition ( true ) ;
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}
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XdrvMailbox . index = index + 1 ; // Fix random index for ShutterClose
if ( XdrvMailbox . command )
ResponseCmndIdxNumber ( ( Settings . shutter_options [ index ] & 1 ) ? 100 - target_pos_percent : target_pos_percent ) ;
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} else {
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ShutterReportPosition ( true ) ;
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if ( XdrvMailbox . command )
ResponseCmndIdxChar ( " Locked " ) ;
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}
}
}
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void CmndShutterStopPosition ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
uint32_t index = XdrvMailbox . index - 1 ;
if ( Shutter . direction [ index ] ) {
XdrvMailbox . payload = - 99 ;
CmndShutterStop ( ) ;
} else {
CmndShutterPosition ( ) ;
}
}
}
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void CmndShutterOpenTime ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
if ( XdrvMailbox . data_len > 0 ) {
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Settings . shutter_opentime [ XdrvMailbox . index - 1 ] = ( uint16_t ) ( 10 * CharToFloat ( XdrvMailbox . data ) ) ;
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ShutterInit ( ) ;
}
char time_chr [ 10 ] ;
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dtostrfd ( ( float ) ( Settings . shutter_opentime [ XdrvMailbox . index - 1 ] ) / 10 , 1 , time_chr ) ;
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ResponseCmndIdxChar ( time_chr ) ;
}
}
void CmndShutterCloseTime ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
if ( XdrvMailbox . data_len > 0 ) {
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Settings . shutter_closetime [ XdrvMailbox . index - 1 ] = ( uint16_t ) ( 10 * CharToFloat ( XdrvMailbox . data ) ) ;
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ShutterInit ( ) ;
}
char time_chr [ 10 ] ;
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dtostrfd ( ( float ) ( Settings . shutter_closetime [ XdrvMailbox . index - 1 ] ) / 10 , 1 , time_chr ) ;
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ResponseCmndIdxChar ( time_chr ) ;
}
}
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void CmndShutterMotorDelay ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
if ( XdrvMailbox . data_len > 0 ) {
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Settings . shutter_motordelay [ XdrvMailbox . index - 1 ] = ( uint16_t ) ( steps_per_second * CharToFloat ( XdrvMailbox . data ) ) ;
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ShutterInit ( ) ;
}
char time_chr [ 10 ] ;
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dtostrfd ( ( float ) ( Settings . shutter_motordelay [ XdrvMailbox . index - 1 ] ) / steps_per_second , 2 , time_chr ) ;
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ResponseCmndIdxChar ( time_chr ) ;
}
}
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void CmndShutterRelay ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = MAX_SHUTTERS ) ) {
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < = 64 ) ) {
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Settings . shutter_startrelay [ XdrvMailbox . index - 1 ] = XdrvMailbox . payload ;
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if ( XdrvMailbox . payload > 0 ) {
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Shutter . mask | = 3 < < ( XdrvMailbox . payload - 1 ) ;
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} else {
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Shutter . mask ^ = 3 < < ( Settings . shutter_startrelay [ XdrvMailbox . index - 1 ] - 1 ) ;
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}
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Settings . shutter_startrelay [ XdrvMailbox . index - 1 ] = XdrvMailbox . payload ;
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ShutterInit ( ) ;
// if payload is 0 to disable the relay there must be a reboot. Otherwhise does not work
}
ResponseCmndIdxNumber ( Settings . shutter_startrelay [ XdrvMailbox . index - 1 ] ) ;
}
}
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void CmndShutterButton ( void )
{
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if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = MAX_SHUTTERS ) ) {
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uint32_t setting = 0 ;
// (setting>>31)&(0x01) : enabled
// (setting>>30)&(0x01) : mqtt broadcast to all index
// (setting>>29)&(0x01) : mqtt broadcast hold
// (setting>>28)&(0x01) : mqtt broadcast tripple press
// (setting>>27)&(0x01) : mqtt broadcast double press
// (setting>>26)&(0x01) : mqtt broadcast single press
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// (setting>>20)&(0x3f) : shutter_position hold; 0 disabled, 1..101 == 0..100%, 102 == toggle
// (setting>>14)&(0x3f) : shutter_position tripple press 0 disabled, 1..101 == 0..100%, 102 == toggle
// (setting>> 8)&(0x3f) : shutter_position double press 0 disabled, 1..101 == 0..100%, 102 == toggle
// (setting>> 2)&(0x3f) : shutter_position single press 0 disabled, 1..101 == 0..100%, 102 == toggle
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// (setting>> 0)&(0x03) : shutter_index
if ( XdrvMailbox . data_len > 0 ) {
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uint32_t i = 0 ;
uint32_t button_index = 0 ;
bool done = false ;
bool isShortCommand = false ;
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char * str_ptr ;
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char data_copy [ strlen ( XdrvMailbox . data ) + 1 ] ;
strncpy ( data_copy , XdrvMailbox . data , sizeof ( data_copy ) ) ; // Duplicate data as strtok_r will modify it.
// Loop through the data string, splitting on ' ' seperators.
for ( char * str = strtok_r ( data_copy , " " , & str_ptr ) ; str & & i < ( 1 + 4 + 4 + 1 ) ; str = strtok_r ( nullptr , " " , & str_ptr ) , i + + ) {
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int field ;
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switch ( str [ 0 ] ) {
case ' - ' :
field = - 1 ;
break ;
case ' t ' :
field = 102 ;
break ;
default :
field = atoi ( str ) ;
break ;
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}
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switch ( i ) {
case 0 :
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if ( ( field > = - 1 ) & & ( field < = 4 ) ) {
button_index = ( field < = 0 ) ? ( - 1 ) : field ;
done = ( button_index = = - 1 ) ;
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} else
done = true ;
break ;
case 1 :
if ( ! strcmp_P ( str , PSTR ( " up " ) ) ) {
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setting | = ( ( ( 100 > > 1 ) + 1 ) < < 2 ) | ( ( ( 50 > > 1 ) + 1 ) < < 8 ) | ( ( ( 75 > > 1 ) + 1 ) < < 14 ) | ( ( ( 100 > > 1 ) + 1 ) < < 20 ) ;
isShortCommand = true ;
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break ;
} else if ( ! strcmp_P ( str , PSTR ( " down " ) ) ) {
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setting | = ( ( ( 0 > > 1 ) + 1 ) < < 2 ) | ( ( ( 50 > > 1 ) + 1 ) < < 8 ) | ( ( ( 25 > > 1 ) + 1 ) < < 14 ) | ( ( ( 0 > > 1 ) + 1 ) < < 20 ) ;
isShortCommand = true ;
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break ;
} else if ( ! strcmp_P ( str , PSTR ( " updown " ) ) ) {
setting | = ( ( ( 100 > > 1 ) + 1 ) < < 2 ) | ( ( ( 0 > > 1 ) + 1 ) < < 8 ) | ( ( ( 50 > > 1 ) + 1 ) < < 14 ) ;
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isShortCommand = true ;
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break ;
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} else if ( ! strcmp_P ( str , PSTR ( " toggle " ) ) ) {
setting | = ( ( ( 102 > > 1 ) + 1 ) < < 2 ) | ( ( ( 50 > > 1 ) + 1 ) < < 8 ) ;
isShortCommand = true ;
break ;
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}
case 2 :
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if ( isShortCommand ) {
if ( ( field = = 1 ) & & ( setting & ( 0x3F < < ( 2 + 6 * 3 ) ) ) )
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// if short command up or down (hold press position set) then also enable MQTT broadcast
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setting | = ( 0x3 < < 29 ) ;
done = true ;
break ;
}
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case 3 :
case 4 :
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if ( ( field > = - 1 ) & & ( field < = 102 ) )
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setting | = ( ( ( field > > 1 ) + 1 ) < < ( i * 6 + ( 2 - 6 ) ) ) ;
break ;
case 5 :
case 6 :
case 7 :
case 8 :
case 9 :
if ( field = = 1 )
setting | = ( 1 < < ( i + ( 26 - 5 ) ) ) ;
break ;
}
if ( done ) break ;
}
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if ( button_index ) {
if ( button_index = = - 1 ) {
// remove all buttons for this shutter
for ( uint32_t i = 0 ; i < MAX_KEYS ; i + + )
if ( ( Settings . shutter_button [ i ] & 0x3 ) = = ( XdrvMailbox . index - 1 ) )
Settings . shutter_button [ i ] = 0 ;
} else {
if ( setting ) {
// anything was set
setting | = ( 1 < < 31 ) ;
setting | = ( XdrvMailbox . index - 1 ) & 0x3 ;
}
Settings . shutter_button [ button_index - 1 ] = setting ;
}
}
}
char setting_chr [ 30 * MAX_KEYS ] = " - " , * setting_chr_ptr = setting_chr ;
for ( uint32_t i = 0 ; i < MAX_KEYS ; i + + ) {
setting = Settings . shutter_button [ i ] ;
if ( ( setting & ( 1 < < 31 ) ) & & ( ( setting & 0x3 ) = = ( XdrvMailbox . index - 1 ) ) ) {
if ( * setting_chr_ptr = = 0 )
setting_chr_ptr + = sprintf_P ( setting_chr_ptr , PSTR ( " | " ) ) ;
setting_chr_ptr + = snprintf_P ( setting_chr_ptr , 2 , PSTR ( " %d " ) , i + 1 ) ;
for ( uint32_t j = 0 ; j < 4 ; j + + ) {
int8_t pos = ( ( ( setting > > ( 2 + 6 * j ) ) & ( 0x3f ) ) - 1 ) < < 1 ;
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if ( 0 < = pos )
if ( 102 = = pos ) {
setting_chr_ptr + = sprintf_P ( setting_chr_ptr , PSTR ( " t " ) ) ;
} else {
setting_chr_ptr + = snprintf_P ( setting_chr_ptr , 5 , PSTR ( " %d " ) , pos ) ;
}
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else
setting_chr_ptr + = sprintf_P ( setting_chr_ptr , PSTR ( " - " ) ) ;
}
for ( uint32_t j = 0 ; j < 5 ; j + + ) {
bool mqtt = ( ( setting > > ( 26 + j ) ) & ( 0x01 ) ! = 0 ) ;
if ( mqtt )
setting_chr_ptr + = sprintf_P ( setting_chr_ptr , PSTR ( " 1 " ) ) ;
else
setting_chr_ptr + = sprintf_P ( setting_chr_ptr , PSTR ( " - " ) ) ;
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}
}
}
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ResponseCmndIdxChar ( setting_chr ) ;
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}
}
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void CmndShutterSetHalfway ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < = 100 ) ) {
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Settings . shutter_set50percent [ XdrvMailbox . index - 1 ] = ( Settings . shutter_options [ XdrvMailbox . index - 1 ] & 1 ) ? 100 - XdrvMailbox . payload : XdrvMailbox . payload ;
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ShutterInit ( ) ;
}
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ResponseCmndIdxNumber ( ( Settings . shutter_options [ XdrvMailbox . index - 1 ] & 1 ) ? 100 - Settings . shutter_set50percent [ XdrvMailbox . index - 1 ] : Settings . shutter_set50percent [ XdrvMailbox . index - 1 ] ) ;
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}
}
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void CmndShutterFrequency ( void )
{
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if ( ( XdrvMailbox . payload > 0 ) & & ( XdrvMailbox . payload < = 20000 ) ) {
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Shutter . max_pwm_frequency = XdrvMailbox . payload ;
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if ( shutters_present < 4 ) {
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Settings . shuttercoeff [ 4 ] [ 3 ] = Shutter . max_pwm_frequency ;
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}
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ShutterInit ( ) ;
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ResponseCmndNumber ( XdrvMailbox . payload ) ; // ????
} else {
ResponseCmndNumber ( Shutter . max_pwm_frequency ) ;
}
}
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void CmndShutterSetClose ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
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Shutter . real_position [ XdrvMailbox . index - 1 ] = 0 ;
ShutterStartInit ( XdrvMailbox . index - 1 , 0 , 0 ) ;
Settings . shutter_position [ XdrvMailbox . index - 1 ] = 0 ;
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ResponseCmndIdxChar ( D_CONFIGURATION_RESET ) ;
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}
}
void CmndShutterInvert ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
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if ( XdrvMailbox . payload = = 0 ) {
Settings . shutter_options [ XdrvMailbox . index - 1 ] & = ~ ( 1 ) ;
} else if ( XdrvMailbox . payload = = 1 ) {
Settings . shutter_options [ XdrvMailbox . index - 1 ] | = ( 1 ) ;
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}
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ResponseCmndIdxNumber ( ( Settings . shutter_options [ XdrvMailbox . index - 1 ] & 1 ) ? 1 : 0 ) ;
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}
}
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void CmndShutterCalibration ( void )
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{
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if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
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if ( XdrvMailbox . data_len > 0 ) {
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uint32_t i = 0 ;
char * str_ptr ;
char data_copy [ strlen ( XdrvMailbox . data ) + 1 ] ;
strncpy ( data_copy , XdrvMailbox . data , sizeof ( data_copy ) ) ; // Duplicate data as strtok_r will modify it.
// Loop through the data string, splitting on ' ' seperators.
for ( char * str = strtok_r ( data_copy , " " , & str_ptr ) ; str & & i < 5 ; str = strtok_r ( nullptr , " " , & str_ptr ) , i + + ) {
int field = atoi ( str ) ;
// The fields in a data string can only range from 1-30000.
// and following value must be higher than previous one
if ( ( field < = 0 ) | | ( field > 30000 ) | | ( ( i > 0 ) & & ( field < = messwerte [ i - 1 ] ) ) ) {
break ;
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}
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messwerte [ i ] = field ;
}
for ( i = 0 ; i < 5 ; i + + ) {
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Settings . shuttercoeff [ i ] [ XdrvMailbox . index - 1 ] = SHT_DIV_ROUND ( ( uint32_t ) messwerte [ i ] * 1000 , messwerte [ 4 ] ) ;
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AddLog_P2 ( LOG_LEVEL_INFO , PSTR ( " Settings.shuttercoeff: %d, i: %d, value: %d, messwert %d " ) , i , XdrvMailbox . index - 1 , Settings . shuttercoeff [ i ] [ XdrvMailbox . index - 1 ] , messwerte [ i ] ) ;
}
ShutterInit ( ) ;
ResponseCmndIdxChar ( XdrvMailbox . data ) ;
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} else {
char setting_chr [ 30 ] = " 0 " ;
snprintf_P ( setting_chr , sizeof ( setting_chr ) , PSTR ( " %d %d %d %d %d " ) , Settings . shuttercoeff [ 0 ] [ XdrvMailbox . index - 1 ] , Settings . shuttercoeff [ 1 ] [ XdrvMailbox . index - 1 ] , Settings . shuttercoeff [ 2 ] [ XdrvMailbox . index - 1 ] , Settings . shuttercoeff [ 3 ] [ XdrvMailbox . index - 1 ] , Settings . shuttercoeff [ 4 ] [ XdrvMailbox . index - 1 ] ) ;
ResponseCmndIdxChar ( setting_chr ) ;
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}
}
}
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void CmndShutterLock ( void ) {
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
if ( XdrvMailbox . payload = = 0 ) {
Settings . shutter_options [ XdrvMailbox . index - 1 ] & = ~ ( 2 ) ;
} else if ( XdrvMailbox . payload = = 1 ) {
Settings . shutter_options [ XdrvMailbox . index - 1 ] | = ( 2 ) ;
}
ResponseCmndIdxNumber ( ( Settings . shutter_options [ XdrvMailbox . index - 1 ] & 2 ) ? 1 : 0 ) ;
}
}
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void CmndShutterEnableEndStopTime ( void ) {
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
if ( XdrvMailbox . payload = = 0 ) {
Settings . shutter_options [ XdrvMailbox . index - 1 ] & = ~ ( 4 ) ;
} else if ( XdrvMailbox . payload = = 1 ) {
Settings . shutter_options [ XdrvMailbox . index - 1 ] | = ( 4 ) ;
}
ResponseCmndIdxNumber ( ( Settings . shutter_options [ XdrvMailbox . index - 1 ] & 4 ) ? 1 : 0 ) ;
}
}
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void CmndShutterInvertWebButtons ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = shutters_present ) ) {
if ( XdrvMailbox . payload = = 0 ) {
Settings . shutter_options [ XdrvMailbox . index - 1 ] & = ~ ( 8 ) ;
} else if ( XdrvMailbox . payload = = 1 ) {
Settings . shutter_options [ XdrvMailbox . index - 1 ] | = ( 8 ) ;
}
ResponseCmndIdxNumber ( ( Settings . shutter_options [ XdrvMailbox . index - 1 ] & 8 ) ? 1 : 0 ) ;
}
}
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/*********************************************************************************************\
* Interface
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
bool Xdrv27 ( uint8_t function )
{
bool result = false ;
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if ( Settings . flag3 . shutter_mode ) { // SetOption80 - Enable shutter support
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switch ( function ) {
case FUNC_PRE_INIT :
ShutterInit ( ) ;
break ;
case FUNC_EVERY_50_MSECOND :
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ShutterUpdatePosition ( ) ;
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break ;
case FUNC_EVERY_SECOND :
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//case FUNC_EVERY_250_MSECOND:
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ShutterReportPosition ( false ) ;
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break ;
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case FUNC_COMMAND :
result = DecodeCommand ( kShutterCommands , ShutterCommand ) ;
break ;
case FUNC_JSON_APPEND :
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for ( uint8_t i = 0 ; i < shutters_present ; i + + ) {
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uint8_t position = ( Settings . shutter_options [ i ] & 1 ) ? 100 - Settings . shutter_position [ i ] : Settings . shutter_position [ i ] ;
uint8_t target = ( Settings . shutter_options [ i ] & 1 ) ? 100 - ShutterRealToPercentPosition ( Shutter . target_position [ i ] , i ) : ShutterRealToPercentPosition ( Shutter . target_position [ i ] , i ) ;
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ResponseAppend_P ( " , " ) ;
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ResponseAppend_P ( JSON_SHUTTER_POS , i + 1 , position , Shutter . direction [ i ] , target ) ;
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# ifdef USE_DOMOTICZ
if ( ( 0 = = tele_period ) & & ( 0 = = i ) ) {
DomoticzSensor ( DZ_SHUTTER , position ) ;
}
# endif // USE_DOMOTICZ
}
break ;
case FUNC_SET_POWER :
char stemp1 [ 10 ] ;
// extract the number of the relay that was switched and save for later in Update Position.
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Shutter . switched_relay = XdrvMailbox . index ^ Shutter . old_power ;
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AddLog_P2 ( LOG_LEVEL_DEBUG_MORE , PSTR ( " SHT: Switched relay: %d by %s " ) , Shutter . switched_relay , GetTextIndexed ( stemp1 , sizeof ( stemp1 ) , last_source , kCommandSource ) ) ;
ShutterRelayChanged ( ) ;
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Shutter . old_power = XdrvMailbox . index ;
break ;
case FUNC_SET_DEVICE_POWER :
if ( Shutter . skip_relay_change ) {
uint8_t i ;
for ( i = 0 ; i < devices_present ; i + + ) {
if ( Shutter . switched_relay & 1 ) {
break ;
}
Shutter . switched_relay > > = 1 ;
}
//AddLog_P2(LOG_LEVEL_ERROR, PSTR("SHT: skip relay change: %d"),i+1);
result = true ;
Shutter . skip_relay_change = 0 ;
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AddLog_P2 ( LOG_LEVEL_DEBUG_MORE , PSTR ( " SHT: Skipping switch off relay %d " ) , i ) ;
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ExecuteCommandPower ( i + 1 , 0 , SRC_SHUTTER ) ;
}
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break ;
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case FUNC_BUTTON_PRESSED :
if ( Settings . shutter_button [ XdrvMailbox . index ] & ( 1 < < 31 ) ) {
ShutterButtonHandler ( ) ;
result = true ;
}
break ;
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}
}
return result ;
}
# endif //USE_SHUTTER