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#ifdef ENABLE_DEBUG
/*
void square_move()
{
queue_absolute_point(100, -100, 0, 2, 20833);
Serial.println("Bottom right");
queue_absolute_point(100, -100, 300, 2, 10000);
Serial.println("Up");
queue_absolute_point(100, 100, 300, 2, 20833);
Serial.println("Top right");
queue_absolute_point(-100, 100, 300, 2, 20833);
Serial.println("Top left");
queue_absolute_point(-100, 100, 0, 2, 10000);
Serial.println("Down");
queue_absolute_point(-100, -100, 0, 2, 20833);
Serial.println("Bottom left");
}
void circle_move()
{
int x, y;
float rads;
for (int i=0; i<100; i++)
{
rads = 2*PI*(i/100.0);
x = 200 * sin(rads);
y = 200 * cos(rads);
queue_absolute_point(x, y, 0, 1, 60000);
}
}
*/
void debug_blink()
{
digitalWrite(DEBUG_PIN, HIGH);
digitalWrite(DEBUG_PIN, LOW);
}
void check_tool_version(byte id)
{
ping_tool(id);
int version = slavePacket.get_16(1);
//print_tool(id);
//Serial.print("version: ");
//Serial.println(version);
}
void exercise_heater()
{
set_tool_temp(1, 100);
while (1)
{
get_tool_temp(1);
delay(500);
}
}
void exercise_motors()
{
boolean dir = true;
Serial.println("forward");
Serial.println("up");
for (int i=0; i<256; i++)
{
set_motor1_pwm(1, i);
toggle_motor1(1, dir, 1);
set_motor2_pwm(1, i);
toggle_motor2(1, dir, 1);
Serial.println(i, DEC);
}
Serial.println("down");
for (int i=255; i>=0; i--)
{
set_motor1_pwm(1, i);
toggle_motor1(1, dir, 1);
set_motor2_pwm(1, i);
toggle_motor2(1, dir, 1);
Serial.println(i, DEC);
}
dir = false;
Serial.println("forward");
Serial.println("up");
for (int i=0; i<256; i++)
{
set_motor1_pwm(1, i);
toggle_motor1(1, dir, 1);
set_motor2_pwm(1, i);
toggle_motor2(1, dir, 1);
Serial.println(i, DEC);
}
Serial.println("down");
for (int i=255; i>=0; i--)
{
set_motor1_pwm(1, i);
toggle_motor1(1, dir, 1);
set_motor2_pwm(1, i);
toggle_motor2(1, dir, 1);
Serial.println(i, DEC);
}
}
void print_stats()
{
Serial.println("Stats:");
Serial.print("Slave TX Count:");
Serial.println(rs485_tx_count, DEC);
Serial.print("Slave RX Count:");
Serial.println(rs485_rx_count, DEC);
Serial.print("Slave Packet Count: ");
Serial.println(rs485_packet_count, DEC);
Serial.print("Slave CRC Errors: ");
Serial.println(slave_crc_errors, DEC);
Serial.print("Slave timeouts: ");
Serial.println(slave_timeouts, DEC);
}
void print_tool(byte id)
{
Serial.print("tool #");
Serial.print(id, DEC);
Serial.print(" ");
}
void get_tool_temp(byte id)
{
slavePacket.init();
slavePacket.add_8(id);
slavePacket.add_8(SLAVE_CMD_GET_TEMP);
send_packet();
int temp = slavePacket.get_16(1);
print_tool(id);
Serial.print("temp: ");
Serial.println(temp, DEC);
}
void set_tool_temp(byte id, unsigned int temp)
{
slavePacket.init();
slavePacket.add_8(id);
slavePacket.add_8(SLAVE_CMD_SET_TEMP);
slavePacket.add_16(temp);
send_packet();
print_tool(id);
Serial.print("set temp to: ");
Serial.println(temp, DEC);
}
void set_motor1_pwm(byte id, byte pwm)
{
slavePacket.init();
slavePacket.add_8(id);
slavePacket.add_8(SLAVE_CMD_SET_MOTOR_1_PWM);
slavePacket.add_8(pwm);
send_packet();
//print_tool(id);
//Serial.print("set motor1 pwm to: ");
//Serial.println(pwm, DEC);
}
void set_motor2_pwm(byte id, byte pwm)
{
slavePacket.init();
slavePacket.add_8(id);
slavePacket.add_8(SLAVE_CMD_SET_MOTOR_2_PWM);
slavePacket.add_8(pwm);
send_packet();
//print_tool(id);
//Serial.print("set motor2 pwm to: ");
//Serial.println(pwm, DEC);
}
void set_motor1_rpm(byte id, int rpm)
{
}
void toggle_motor1(byte id, boolean dir, boolean enable)
{
byte flags = 0;
if (enable)
flags += 1;
if (dir)
flags += 2;
slavePacket.init();
slavePacket.add_8(id);
slavePacket.add_8(SLAVE_CMD_TOGGLE_MOTOR_1);
slavePacket.add_8(flags);
send_packet();
}
void toggle_motor2(byte id, boolean dir, boolean enable)
{
byte flags = 0;
if (enable)
flags += 1;
if (dir)
flags += 2;
slavePacket.init();
slavePacket.add_8(id);
slavePacket.add_8(SLAVE_CMD_TOGGLE_MOTOR_2);
slavePacket.add_8(flags);
send_packet();
}
void toggle_fan(byte id, boolean enable)
{
slavePacket.init();
slavePacket.add_8(id);
slavePacket.add_8(SLAVE_CMD_TOGGLE_FAN);
slavePacket.add_8(enable);
send_packet();
}
void toggle_valve(byte id, boolean open)
{
slavePacket.init();
slavePacket.add_8(id);
slavePacket.add_8(SLAVE_CMD_TOGGLE_VALVE);
slavePacket.add_8(open);
send_packet();
}
void get_motor1_pwm(byte id)
{
slavePacket.init();
slavePacket.add_8(id);
slavePacket.add_8(SLAVE_CMD_GET_MOTOR_1_PWM);
send_packet();
byte temp = slavePacket.get_8(1);
print_tool(id);
Serial.print("m1 pwm: ");
Serial.println(temp, DEC);
}
void get_motor2_pwm(byte id)
{
slavePacket.init();
slavePacket.add_8(id);
slavePacket.add_8(SLAVE_CMD_GET_MOTOR_2_PWM);
send_packet();
byte temp = slavePacket.get_8(1);
print_tool(id);
Serial.print("m2 pwm: ");
Serial.println(temp, DEC);
}
void set_servo1_position(byte id, byte pos)
{
slavePacket.init();
slavePacket.add_8(id);
slavePacket.add_8(SLAVE_CMD_SET_SERVO_1_POS);
slavePacket.add_8(pos);
send_packet();
}
void set_servo2_position(byte id, byte pos)
{
slavePacket.init();
slavePacket.add_8(id);
slavePacket.add_8(SLAVE_CMD_SET_SERVO_2_POS);
slavePacket.add_8(pos);
send_packet();
}
void get_motor1_rpm(byte id)
{
}
void get_filament_status(byte id)
{
slavePacket.init();
slavePacket.add_8(id);
slavePacket.add_8(SLAVE_CMD_FILAMENT_STATUS);
send_packet();
byte temp = slavePacket.get_8(1);
print_tool(id);
Serial.print("filament: ");
Serial.println(temp, DEC);
}
void test_rs485()
{
for (byte j=0; j<5; j++)
{
Serial.print("starting round ");
Serial.println(j, DEC);
for (int i=0; i<=255; i++)
{
set_i(i);
delay(50);
}
delay(1000);
for (int i=255; i>=0; i--)
{
set_i(i);
delay(50);
}
delay(1000);
}
print_stats();
}
void set_i(byte i)
{
set_motor1_pwm(0, i);
toggle_motor1(0, true, true);
set_motor2_pwm(0, i);
toggle_motor2(0, true, true);
if (i>127)
{
toggle_fan(0, true);
toggle_valve(0, true);
}
else
{
toggle_fan(0, false);
toggle_valve(0, false);
}
}
#endif
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