Diff: main.cpp

Revision:

0:d6186b8990c5

Child:

1:d24fd64d1fcb

diff -r 000000000000 -r d6186b8990c5 main.cpp
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/main.cpp	Fri May 26 19:47:57 2017 +0000
@@ -0,0 +1,226 @@
+
+#define CAN_ID 0x1
+
+#include "mbed.h"
+#include "math_ops.h"
+
+
+Serial       pc(PA_2, PA_3);
+CAN          can(PB_8, PB_9);  // CAN Rx pin name, CAN Tx pin name
+CANMessage   rxMsg;
+CANMessage   txMsg1;
+CANMessage    txMsg2;
+int                     ledState;
+Timer                   timer;
+Ticker                  sendCAN;
+int                     counter = 0;
+volatile bool           msgAvailable = false;
+Ticker loop;
+
+ float theta1, theta2, dtheta1, dtheta2;
+
+/// Value Limits ///
+ #define P_MIN -12.5f
+ #define P_MAX 12.5f
+ #define V_MIN -30.0f
+ #define V_MAX 30.0f
+ #define KP_MIN 0.0f
+ #define KP_MAX 500.0f
+ #define KD_MIN 0.0f
+ #define KD_MAX 5.0f
+ #define T_MIN -18.0f
+ #define T_MAX 18.0f
+ #define I_MAX 40.0f
+ 
+/// CAN Command Packet Structure ///
+/// 16 bit position command, between -4*pi and 4*pi
+/// 12 bit velocity command, between -30 and + 30 rad/s
+/// 12 bit kp, between 0 and 500 N-m/rad
+/// 12 bit kd, between 0 and 100 N-m*s/rad
+/// 12 bit feed forward torque, between -18 and 18 N-m
+/// CAN Packet is 8 8-bit words
+/// Formatted as follows.  For each quantity, bit 0 is LSB
+/// 0: [position[15-8]]
+/// 1: [position[7-0]] 
+/// 2: [velocity[11-4]]
+/// 3: [velocity[3-0], kp[11-8]]
+/// 4: [kp[7-0]]
+/// 5: [kd[11-4]]
+/// 6: [kd[3-0], torque[11-8]]
+/// 7: [torque[7-0]]
+
+void pack_cmd(CANMessage * msg, float p_des, float v_des, float kp, float kd, float t_ff){
+     /// limit data to be within bounds ///
+     p_des = fminf(fmaxf(P_MIN, p_des), P_MAX);                    
+     v_des = fminf(fmaxf(V_MIN, v_des), V_MAX);
+     kp = fminf(fmaxf(KP_MIN, kp), KP_MAX);
+     kd = fminf(fmaxf(KD_MIN, kd), KD_MAX);
+     t_ff = fminf(fmaxf(T_MIN, t_ff), T_MAX);
+     /// convert floats to unsigned ints ///
+     int p_int = float_to_uint(p_des, P_MIN, P_MAX, 16);            
+     int v_int = float_to_uint(v_des, V_MIN, V_MAX, 12);
+     int kp_int = float_to_uint(kp, KP_MIN, KP_MAX, 12);
+     int kd_int = float_to_uint(kd, KD_MIN, KD_MAX, 12);
+     int t_int = float_to_uint(t_ff, T_MIN, T_MAX, 12);
+     /// pack ints into the can buffer ///
+     msg->data[0] = p_int>>8;                                       
+     msg->data[1] = p_int&0xFF;
+     msg->data[2] = v_int>>4;
+     msg->data[3] = ((v_int&0xF)<<4)|(kp_int>>8);
+     msg->data[4] = kp_int&0xFF;
+     msg->data[5] = kd_int>>4;
+     msg->data[6] = ((kd_int&0xF)<<4)|(t_int>>8);
+     msg->data[7] = t_int&0xff;
+     }
+     
+/// CAN Reply Packet Structure ///
+/// 16 bit position, between -4*pi and 4*pi
+/// 12 bit velocity, between -30 and + 30 rad/s
+/// 12 bit current, between -40 and 40;
+/// CAN Packet is 5 8-bit words
+/// Formatted as follows.  For each quantity, bit 0 is LSB
+/// 0: [position[15-8]]
+/// 1: [position[7-0]] 
+/// 2: [velocity[11-4]]
+/// 3: [velocity[3-0], current[11-8]]
+/// 4: [current[7-0]]
+
+void unpack_reply(CANMessage msg){
+    /// unpack ints from can buffer ///
+    int id = msg.data[0];
+    int p_int = (msg.data[1]<<8)|msg.data[2];
+    int v_int = (msg.data[3]<<4)|(msg.data[4]>>4);
+    int i_int = ((msg.data[4]&0xF)<<8)|msg.data[5];
+    /// convert ints to floats ///
+    float p = uint_to_float(p_int, P_MIN, P_MAX, 16);
+    float v = uint_to_float(v_int, V_MIN, V_MAX, 12);
+    float i = uint_to_float(i_int, -I_MAX, I_MAX, 12);
+    
+    if(id == 2){
+        theta1 = p;
+        dtheta1 = v;
+        }
+    else if(id ==3){
+        theta2 = p;
+        dtheta2 = v;
+        }
+    
+    } 
+    
+ void onMsgReceived() {
+    can.read(rxMsg);                    // read message into Rx message storage
+    unpack_reply(rxMsg);
+}
+
+
+void sendCMD(){
+    /// bilateral teleoperation demo ///
+    pack_cmd(&txMsg1, theta2, dtheta2, 10, .1, 0); 
+    pack_cmd(&txMsg2, theta1, dtheta1, 10, .1, 0);
+    can.write(txMsg2);
+    wait(.0003);        // Give motor 1 time to respond.
+    can.write(txMsg1);
+    }
+    
+void serial_isr(){
+     /// hangle keyboard commands from the serial terminal ///
+     while(pc.readable()){
+        char c = pc.getc();
+        switch(c){
+            case(27):
+                printf("\n\r exiting motor mode \n\r");
+                txMsg1.data[0] = 0xFF;
+                txMsg1.data[1] = 0xFF;
+                txMsg1.data[2] = 0xFF;
+                txMsg1.data[3] = 0xFF;
+                txMsg1.data[4] = 0xFF;
+                txMsg1.data[5] = 0xFF;
+                txMsg1.data[6] = 0xFF;
+                txMsg1.data[7] = 0xFD;
+                
+                txMsg2.data[0] = 0xFF;
+                txMsg2.data[1] = 0xFF;
+                txMsg2.data[2] = 0xFF;
+                txMsg2.data[3] = 0xFF;
+                txMsg2.data[4] = 0xFF;
+                txMsg2.data[5] = 0xFF;
+                txMsg2.data[6] = 0xFF;
+                txMsg2.data[7] = 0xFD;
+                break;
+            case('m'):
+                printf("\n\r entering motor mode \n\r");
+                txMsg1.data[0] = 0xFF;
+                txMsg1.data[1] = 0xFF;
+                txMsg1.data[2] = 0xFF;
+                txMsg1.data[3] = 0xFF;
+                txMsg1.data[4] = 0xFF;
+                txMsg1.data[5] = 0xFF;
+                txMsg1.data[6] = 0xFF;
+                txMsg1.data[7] = 0xFC;
+                
+                txMsg2.data[0] = 0xFF;
+                txMsg2.data[1] = 0xFF;
+                txMsg2.data[2] = 0xFF;
+                txMsg2.data[3] = 0xFF;
+                txMsg2.data[4] = 0xFF;
+                txMsg2.data[5] = 0xFF;
+                txMsg2.data[6] = 0xFF;
+                txMsg2.data[7] = 0xFC;
+                break;
+            case('z'):
+                printf("\n\r zeroing \n\r");
+                txMsg1.data[0] = 0xFF;
+                txMsg1.data[1] = 0xFF;
+                txMsg1.data[2] = 0xFF;
+                txMsg1.data[3] = 0xFF;
+                txMsg1.data[4] = 0xFF;
+                txMsg1.data[5] = 0xFF;
+                txMsg1.data[6] = 0xFF;
+                txMsg1.data[7] = 0xFE;
+                
+                txMsg2.data[0] = 0xFF;
+                txMsg2.data[1] = 0xFF;
+                txMsg2.data[2] = 0xFF;
+                txMsg2.data[3] = 0xFF;
+                txMsg2.data[4] = 0xFF;
+                txMsg2.data[5] = 0xFF;
+                txMsg2.data[6] = 0xFF;
+                txMsg2.data[7] = 0xFE;
+                break;
+            }
+        }
+        can.write(txMsg1);
+        can.write(txMsg2);
+        
+    }
+    
+int can_packet[8] = {1, 2, 3, 4, 5, 6, 7, 8};
+int main() {
+    pc.baud(921600);
+    pc.attach(&serial_isr);
+    can.frequency(1000000);                     // set bit rate to 1Mbps
+    can.attach(&onMsgReceived);                 // attach 'CAN receive-complete' interrupt handler
+    can.filter(CAN_ID<<21, 0xFFE00004, CANStandard, 0); //set up can filter
+    printf("Master\n\r");
+    //printf("%d\n\r", RX_ID << 18);
+    int count = 0;
+    txMsg1.len = 8;                         //transmit 8 bytes
+    txMsg2.len = 8;                         //transmit 8 bytes
+    rxMsg.len = 6;                          //receive 5 bytes
+    loop.attach(&sendCMD, .001);
+    txMsg1.id = 0x2;                        //1st motor ID
+    txMsg2.id = 0x3;                        //2nd motor ID
+    pack_cmd(&txMsg1, 0, 0, 0, 0, 0);       //Start out by sending all 0's
+    pack_cmd(&txMsg2, 0, 0, 0, 0, 0);
+    timer.start();
+    
+    while(1) {
+
+        }
+        
+    }
+    
+
+
+
+