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# include "motors_movement/drivecontroller.h"
# include "sensors/sensors.h"
# include "behaviour_control/status_vector.h"
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# include "vars.h"
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DriveController : : DriveController ( Motor * m1_ , Motor * m2_ , Motor * m3_ , Motor * m4_ ) {
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m1 = m1_ ;
m2 = m2_ ;
m3 = m3_ ;
m4 = m4_ ;
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pDir = 0 ;
pSpeed = 0 ;
pTilt = 0 ;
vx = 0 ;
vy = 0 ;
speed1 = 0 ;
speed2 = 0 ;
speed3 = 0 ;
speed4 = 0 ;
delta = 0 ;
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input = 0 ;
output = 0 ;
setpoint = 0 ;
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pid = new PID ( & input , & output , & setpoint , KP , KI , KD , 1 , DIRECT ) ;
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pid - > SetSampleTime ( 1.5 ) ;
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pid - > setAngleWrap ( true ) ;
pid - > SetDerivativeLag ( 2 ) ;
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pid - > SetOutputLimits ( - 255 , 255 ) ;
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pid - > SetMode ( AUTOMATIC ) ;
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// Complementary filter for speed
speedFilter = new ComplementaryFilter ( 0.3 ) ;
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canUnlock = true ;
unlockTime = 0 ;
vxp = 0 ;
vxn = 0 ;
vyp = 0 ;
vyn = 0 ;
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}
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void DriveController : : prepareDrive ( int dir , int speed , int tilt ) {
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pDir = dir ;
pSpeed = speed ;
pTilt = tilt ;
}
void DriveController : : drivePrepared ( ) {
drive ( pDir , pSpeed , pTilt ) ;
}
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float DriveController : : torad ( float f ) {
return ( f * PI / 180.0 ) ;
}
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void DriveController : : drive ( int dir , int speed , int tilt ) {
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speed = speedFilter - > calculate ( speed ) * GLOBAL_SPD_MULT ;
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tilt = tilt > 180 ? tilt - 360 : tilt ;
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//TODO: Changing CURRENT_DATA_READ to CURRENT_DATA_WRITE?
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// Disable vector sum because calculations are a bitty crappy imho. Will have to test if it's what makes the robot act strange with lines
// Re enabling the below lines requires to comment out drive->prepareDrive and uncommenting the lines relative to vector sum inside positionsys_camera and comment out the other lines here
// vx = ((speed * cosins[dir])) + CURRENT_DATA_READ.addvx;
// vy = ((-speed * sins[dir])) + CURRENT_DATA_READ.addvy;
vx = ( ( speed * cosins [ dir ] ) ) ;
vy = ( ( - speed * sins [ dir ] ) ) ;
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if ( ( ( ( vy < 0 & & vxn = = 1 ) | | ( vy > 0 & & vxp = = 1 ) | | ( vx < 0 & & vyp = = 1 ) | | ( vx > 0 & & vyn = = 1 ) ) & & canUnlock ) | | ( millis ( ) > this - > unlockTime + UNLOCK_THRESH ) ) {
vxn = 0 ;
vxp = 0 ;
vyp = 0 ;
vyn = 0 ;
}
if ( ( vy > 0 & & vxn = = 1 ) | | ( vy < 0 & & vxp = = 1 ) ) vy = 0 ;
if ( ( vx > 0 & & vyp = = 1 ) | | ( vx < 0 & & vyn = = 1 ) ) vx = 0 ;
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speed1 = ( ( vx * sins [ m1 - > angle ] ) + ( vy * cosins [ m1 - > angle ] ) ) ;
speed2 = ( ( vx * sins [ m2 - > angle ] ) + ( vy * cosins [ m2 - > angle ] ) ) ;
speed3 = - ( speed1 ) ;
speed4 = - ( speed2 ) ;
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// Calculate position error relative to the 0
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delta = CURRENT_DATA_READ . IMUAngle ;
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if ( delta > 180 ) delta = delta - 360 ;
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input = delta ;
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setpoint = tilt ;
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pid - > Compute ( ) ;
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pidfactor = - output ;
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speed1 + = pidfactor ;
speed2 + = pidfactor ;
speed3 + = pidfactor ;
speed4 + = pidfactor ;
speed1 = constrain ( speed1 , - 255 , 255 ) ;
speed2 = constrain ( speed2 , - 255 , 255 ) ;
speed3 = constrain ( speed3 , - 255 , 255 ) ;
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speed4 = constrain ( speed4 , - 255 , 255 ) ;
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m1 - > drive ( ( int ) speed1 ) ;
m2 - > drive ( ( int ) speed2 ) ;
m3 - > drive ( ( int ) speed3 ) ;
m4 - > drive ( ( int ) speed4 ) ;
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oldSpeed = speed ;
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CURRENT_DATA_WRITE . dir = dir ;
CURRENT_DATA_WRITE . speed = speed ;
CURRENT_DATA_WRITE . tilt = tilt ;
CURRENT_DATA_WRITE . axisBlock [ 0 ] = vxp ;
CURRENT_DATA_WRITE . axisBlock [ 1 ] = vxn ;
CURRENT_DATA_WRITE . axisBlock [ 2 ] = vyp ;
CURRENT_DATA_WRITE . axisBlock [ 3 ] = vyn ;
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}