diff options
Diffstat (limited to 'Other_Arduino_Codes/TwoNema17-2DM542-OSP-Plugin-Test/OSP.cpp')
| -rw-r--r-- | Other_Arduino_Codes/TwoNema17-2DM542-OSP-Plugin-Test/OSP.cpp | 495 |
1 files changed, 495 insertions, 0 deletions
diff --git a/Other_Arduino_Codes/TwoNema17-2DM542-OSP-Plugin-Test/OSP.cpp b/Other_Arduino_Codes/TwoNema17-2DM542-OSP-Plugin-Test/OSP.cpp new file mode 100644 index 0000000..48abd91 --- /dev/null +++ b/Other_Arduino_Codes/TwoNema17-2DM542-OSP-Plugin-Test/OSP.cpp @@ -0,0 +1,495 @@ +// #include "WProgram.h" // Arduino < 1.0 +#include <Arduino.h> //Arduino >= 1.0 +#include "OSP.h" + +//int steps; +int dir1, step1, dir2, step2; +float stepx; +float stepy; +//int low; +//int high; +int x_rev_set = 0; +int y_rev_set = 0; +float valx; +float valy; +float _pgrad_x; +float _pgrad_y; +//bool blind; +//int diff_x; +//int diff_y; +float stepx_new; +float stepy_new; +float degsH; +float degsV; +float degsH_new; +float degsV_new; +//int slow=50; +//int xcount; +//int ycount; + + +OSP::OSP(){ + stopper=0; +} + +void OSP::setMotorsPins(int step1, int dir1, int enable1, int step2, int dir2, int enable2, int ledPin, int ddir1, int ddir2, int motor1, int motor2, int sensor1, int sensor2) +{ + + pinMode(step1, OUTPUT); // pinMode(pulPin, OUTPUT); + pinMode(dir1, OUTPUT); // pinMode(dirPin, OUTPUT); + pinMode(enable1, OUTPUT); // pinMode(enblPin, OUTPUT); + pinMode(step2, OUTPUT); // pinMode(pulPin1, OUTPUT); + pinMode(dir2, OUTPUT);// pinMode(dirPin1, OUTPUT); + pinMode(enable2, OUTPUT); // pinMode(enblPin1, OUTPUT); + pinMode(ledPin, OUTPUT); // pinMode(ledPin, OUTPUT); + pinMode(sensor1, INPUT); // pinMode(sensor1, INPUT); + pinMode(sensor2, INPUT); // pinMode(sensor2, INPUT); + + digitalWrite(step1, LOW); // digitalWrite(pulPin, LOW); + digitalWrite(step2, LOW); // digitalWrite(pulPin1, LOW); + digitalWrite(ledPin, LOW); // digitalWrite(ledPin, LOW); + digitalWrite(enable1, LOW); // digitalWrite(enblPin, LOW); + digitalWrite(enable2, LOW); // digitalWrite(enblPin1, LOW); + digitalWrite(dir1, HIGH); // digitalWrite(dirPin, LOW); +digitalWrite(dir2, HIGH); // digitalWrite(dirPin1, LOW); + + + //Serial.begin(9600); + Serial.println("Setting up Motor pins..done"); + + digitalWrite(step1, HIGH); // digitalWrite(enblPin, HIGH); + delay(100); + digitalWrite(step1, LOW); // digitalWrite(enblPin, LOW); + digitalWrite(step2, HIGH); // digitalWrite(enblPin1, HIGH); + delay(100); + digitalWrite(step2, LOW); // digitalWrite(enblPin1, LOW); + + + motor1 = 10;//number of steps + motor2 = 20;//number of steps + + ddir1=1;//dir 1 for CW 0 for CCW + ddir2=1;//dir 1 for CW 0 for CCW + delay(1000); +} + + +//####################################### +void OSP::init() +{ + low = 0; + high = 3200;//Motor driver switch setting; + + _pgrad_x=(float)((float)(high-low)/360); + _pgrad_y=(float)((float)(high-low)/180); + + stepx=0; + stepy=0; + low = 0; +high = 0; +x_rev_set = 0; +y_rev_set = 0; +valx = 0; +valy = 0; +_pgrad_x = 0; +_pgrad_y = 0; +stepx_new = 0; +stepy_new = 0; +degsH = 0; +degsV = 0; +degsH_new = 0; +degsV_new = 0; + + //Serial.println(_pgrad_x); + } + +//#################################### + int OSP::getPX() //Steps per revolution on X axis + { + return x_rev_set = 3200;//Change this as per the switch setting on the driver + } +//####################################### + + int OSP::getPY() //Steps per revolution on Y axis + { + return y_rev_set = 3200;//Change this as per the switch setting on the driver + } + + //##################################### + bool OSP::movx(bool dir, int step1, int dir1) //Move on X axis // ovx(bool dir, int pulPin, int dirPin) + { + int bytes_recv = 0; + char comm[5]="nost"; + + comm[bytes_recv++] = Serial.read(); + //Serial.print("value of comm is "); + //Serial.println(comm); + while(strcmp(comm, "stop")!=0 || stopper) + { + //Serial.println("movx"); + //Serial.println(pulPin); + if(dir==1) + { + + if(stepx>=3200) + { + stepx=3200; + } + /*digitalWrite(dirPin, HIGH); + digitalWrite(pulPin, HIGH); + digitalWrite(pulPin, LOW); */ + else + { + digitalWrite(dir1, HIGH); + digitalWrite(step1, HIGH); + delay(10); + digitalWrite(step1, LOW); + delay(10); + + stepx++; + } + + //Serial.println(stepx); + + } + else + { + if(stepx<=0) + { + stepx = 0; + } + else { + /*digitalWrite(dirPin, LOW); + digitalWrite(pulPin, HIGH); + digitalWrite(pulPin, LOW);*/ + + digitalWrite(dir1, LOW); + digitalWrite(step1, HIGH); + delay(10); + digitalWrite(step1, LOW); + delay(10); + + stepx--; + + } + + //Serial.println(stepx); + } + float temp=stepx*360.0/3200.0; + Serial.println(temp); + //delay(50); + while(Serial.available() > 0) + comm[bytes_recv++] = Serial.read(); + //Serial.println(comm); + //Serial.println("inside second while"); + //Safeguard... + //Serial.println(stepx); + if(bytes_recv>4) + { + break; + + } + +} + + + return true; + } + + //##################################### + bool OSP::movy(bool dir, int step2, int dir2) //Move on Y axis + // bool OSP::movy(bool dir, int pulPin1, int dirPin1) + { + // Serial.print("stepx of axes "); Serial.println(stepx); + int bytes_recv = 0; + char comm[5]="nost"; + + comm[bytes_recv++] = Serial.read(); + //Serial.print("value of comm is "); + //Serial.println(comm); + while(strcmp(comm, "stop")!=0) + { + if(dir==0) + { + if(stepy>=3200/4) + { + stepy=3200/4; + } + else + { + digitalWrite(dir2, LOW); // digitalWrite(dirPin1, HIGH); + digitalWrite(step2, HIGH); // digitalWrite(pulPin1, HIGH); + delay(10); + digitalWrite(step2, LOW); // digitalWrite(pulPin1, LOW); + delay(10); + stepy++; + } + //Serial.println(stepy); + + } + else + { + if(stepy<=0) + { + stepy=0; + //Serial.println("stop"); + + } + else + { + digitalWrite(dir2, HIGH); // digitalWrite(dirPin1, LOW); + digitalWrite(step2, HIGH); // digitalWrite(pulPin1, HIGH); + delay(10); + digitalWrite(step2, LOW); // digitalWrite(pulPin1, LOW); + delay(10); + stepy--; + } + //Serial.println(stepy); + + } + float temp=stepy*360.0/3200.0; + Serial.println(temp); + + + //delay(50); + while(Serial.available() > 0) + comm[bytes_recv++] = Serial.read(); + //Serial.println(comm); + //Serial.println("inside second while"); + //Safeguard... + //Serial.println(stepy); + if(bytes_recv>4) + { + break; + // + } + +} + + + return true; + } + + //560 to 2420 << 590 2190 +//################################# + +float OSP::getX() +{ + /** + * Returns current position on X axis + * + * \return X position as radians to stellarium + */ + + //Serial.println(stepx); + float valx; + //valx = map(stepx, 0, 3200, 0, 360); + valx = stepx*(float)(360.00/3200.00); + valx = (float)(M_PI/180)*valx; + //vlax = _deg2rad(valx); + + return valx; +} + +float OSP::getY() +{ + /** + * Returns current position on Y axis + * + * \return Y position as radians to stellarium + */ + //Serial.println(stepy); + + float valy; + + valy = stepy*(float)(360.00/3200.00); +// valy = map(stepy, 0, 3200/2, 0, 180); + valy = (float)(M_PI/180)*valy; +// //vlay=_deg2rad(valy); + + return valy; +} + +int OSP::getPx() +{ + /** + * Return the number of steps per revolution of the Y axis + * + * \return Steps per revolution + */ + + return stepx; + +} + +int OSP::getPy() +{ + return stepy; +} + + +float OSP::_rad2deg(float rad){ +// return lrint( (float) (180.00/M_PI)*rad); + return (float) (180.00/M_PI)*rad; + +} + +float OSP::_deg2rad(float deg){ + return (float) (M_PI/180.00)*deg; +} + +/* +void AxesLib::goToRads(float rx, float ry){ + float degsH = (360.0 - _rad2deg(rx)); + if(degsH >= 360.0) + degsH = degsH - 360.0; + + _moveTo((float) degsH*_pgrad_x, (float) _rad2deg(ry)*_pgrad_y); +}*/ + +//################################################ + +//###################################### +void OSP::goToRads(float x_rad, float y_rad)//give this input for debugging> movem_-4.5434_-2.5254 +{ + + float degsH = _rad2deg(x_rad); + float degsV = _rad2deg(y_rad); + +//if((degsH_new==degsH) +//if(degsV_new==degsV)) +//if((degsH_new>degsH) +//{ +// } +//if(degsV_new>degsV)) +//if((degsH_new<degsH) +//if(degsV_new<degsV)) +//{ +//} +//else if((degsH_new>degsH)||(degsV_new>degsV)) +// +//{ +// degsH = degsH_new; +// degsV = degsV_new; + //Serial.println(degsH); + //Serial.println(degsV); +_moveTo(degsH,degsV); +// } + + //degsH = degsH+180; + //degsV = 180-degsV; + + +} +//################################################## +void OSP::_moveTo(float x, float y, char* method) +{ + //stepx_new = map(abs(x), 0, 360, low, high); + //stepy_new = map(abs(y), 0, 180, low, high); + + + stepx_new = (3200*x)/360;//map to counts + stepy_new = (3200*y)/360;//map to counts + +// if(((stepx-stepx_new)==0)||((stepy-stepy_new)==0)) +// { +// stepx=0; +// stepy=0; +// } +// else +// { +// stepx=stepx_new-stepx; +// stepy=stepy_new-stepy; + //} + +//if((stepx_new>stepx)||(stepy_new>stepy)) +//{ +// Serial.println("Forward"); +// stepx=stepx_new-stepx; +// stepy=stepy_new-stepy; +// } +// else +// { Serial.println("Reverse"); +// +// stepx=stepx-stepx_new; +// stepy=stepy-stepy_new; +// } + +stepx=stepx_new-stepx; +stepy=stepy_new-stepy; + + + //Serial.println(stepx); + //Serial.println(stepy); + + //_moveXY(stepx, stepy); + //Serial.println("done_move"); + + + //Serial.println("done_move"); + + + + //Serial.println(low); + //Serial.println(high); + //Serial.println(stepx_new); + //Serial.println(stepy_new); + + //_moveDDA(stepx_new, stepy_new); + _moveXY(stepx, stepy,true); + stepx=stepx_new; +stepy=stepy_new; +// //_moveEqua(stepx_new, stepy_new); +// stepx=stepx_new; +// stepy=stepy_new; +} +//################################################## +void OSP::_moveXY(float x, float y, bool nodelay) +{ + + + if(y>3200.00/4) y = 3200.00/4; // This is to limit the Tilt Motor to 90 degree + + for(float count=0;count<abs(round(x));count++) + { + if(x<0) + { + digitalWrite(11, LOW); // digitalWrite(11, LOW); + } + else + { + digitalWrite(11, HIGH); // digitalWrite(11, HIGH); + } + + digitalWrite(10, HIGH); // digitalWrite(10, HIGH); + delay(10); + digitalWrite(10, LOW); // digitalWrite(10, LOW); + //Serial.println(pulPin); + + delay(10); + } + + for(int count=0;count<abs(y);count++) + { + if(y<0) + { + digitalWrite(8, HIGH);// digitalWrite(4, LOW); + } + else + { + digitalWrite(8, LOW); // digitalWrite(4, HIGH); + } + + digitalWrite(7, HIGH); // digitalWrite(3, HIGH); + delay(10); + digitalWrite(7, LOW); // digitalWrite(3, LOW); + delay(10); + } + + } + +void OSP::_moveEqua(int x, int y) + { + + } + |