palm and chin
/
BEAR_Protocol_Edited
Important changes to repositories hosted on mbed.com
Mbed hosted mercurial repositories are deprecated and are due to be permanently deleted in July 2026.
To keep a copy of this software download the repository Zip archive or clone locally using Mercurial.
It is also possible to export all your personal repositories from the account settings page.
Dependencies: Communication_Robot
Fork of
BEAR_Protocol
by 
BE@R lab
BEAR_Protocol.cpp
- Committer:
- b0ssiz
- Date:
- 2016-01-21
- Revision:
- 9:c22410169d9f
- Parent:
- 8:e1f43b1df0b5
- Child:
- 10:2398eeafa967
File content as of revision 9:c22410169d9f:
#include "mbed.h"
#include "BEAR_Protocol.h"
#define RS485_DELAY 90
#define FLOAT_CONVERTER 10000
DigitalOut rs485_dirc(RS485_DIRC);
Bear_Communicate::Bear_Communicate(PinName tx,PinName rx,int baudrate)
{
com = new COMMUNICATION(tx,rx,baudrate);
}
void Bear_Communicate::FloatSep(float input_float,uint8_t *int_data_array,uint8_t *float_data_array)
{
float float_buffer;
float int_buffer;
int16_t integer;
int16_t floating_point;
float_buffer=modf(input_float,&int_buffer);
float_buffer*=FLOAT_CONVERTER;
integer=(int16_t)int_buffer;
floating_point=(int16_t)float_buffer;
Utilities::ConvertInt16ToUInt8Array(integer,int_data_array);
Utilities::ConvertInt16ToUInt8Array(floating_point,float_data_array);
}
uint8_t Bear_Communicate::saveDataToEEPROM(uint8_t id,uint8_t save_data)
{
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 4;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=SAVE_EEPROM_DATA;
package.parameter[1]=save_data;
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::setID(uint8_t id,uint8_t new_id)
{
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 4;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=ID;
package.parameter[1]=new_id;
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::setMotorPos(uint8_t id,float up_angle,float low_angle)
{
uint8_t IntUpAngle[2],FloatUpAngle[2];
uint8_t IntLowAngle[2],FloatLowAngle[2];
FloatSep(up_angle,IntUpAngle,FloatUpAngle);
FloatSep(low_angle,IntLowAngle,FloatLowAngle);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 11;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=MOTOR_UPPER_ANG;
package.parameter[1]=IntUpAngle[0];
package.parameter[2]=IntUpAngle[1];
package.parameter[3]=FloatUpAngle[0];
package.parameter[4]=FloatUpAngle[1];
package.parameter[5]=IntLowAngle[0];
package.parameter[6]=IntLowAngle[1];
package.parameter[7]=FloatLowAngle[0];
package.parameter[8]=FloatLowAngle[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::getMotorPos(uint8_t id,float *up_angle,float *low_angle)
{
uint8_t IntUpAngle[2],FloatUpAngle[2];
uint8_t IntLowAngle[2],FloatLowAngle[2];
float int_buffer,float_buffer;
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 3;
package.instructionErrorId = READ_DATA;
package.parameter[0] = MOTOR_UPPER_ANG;
rs485_dirc=1;
wait_us(RS485_DELAY);
com->sendCommunicatePacket(&package);
rs485_dirc=0;
wait_us(RS485_DELAY);
uint8_t status = com->receiveCommunicatePacket(&package);
if(status == ANDANTE_ERRBIT_NONE) {
IntUpAngle[0]=package.parameter[0];
IntUpAngle[1]=package.parameter[1];
FloatUpAngle[0]=package.parameter[2];
FloatUpAngle[1]=package.parameter[3];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntUpAngle);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatUpAngle)/FLOAT_CONVERTER;
*up_angle=int_buffer+float_buffer;
IntLowAngle[0]=package.parameter[4];
IntLowAngle[1]=package.parameter[5];
FloatLowAngle[0]=package.parameter[6];
FloatLowAngle[1]=package.parameter[7];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntLowAngle);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatLowAngle)/FLOAT_CONVERTER;
*low_angle=int_buffer+float_buffer;
}
return status;
}
uint8_t Bear_Communicate::setUpMotorKp(uint8_t id,float Kp)
{
uint8_t IntKp[2],FloatKp[2];
FloatSep(Kp,IntKp,FloatKp);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 7;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=KP_UPPER_MOTOR;
package.parameter[1]=IntKp[0];
package.parameter[2]=IntKp[1];
package.parameter[3]=FloatKp[0];
package.parameter[4]=FloatKp[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::setLowMotorKp(uint8_t id,float Kp)
{
uint8_t IntKp[2],FloatKp[2];
FloatSep(Kp,IntKp,FloatKp);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 7;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=KP_LOWER_MOTOR;
package.parameter[1]=IntKp[0];
package.parameter[2]=IntKp[1];
package.parameter[3]=FloatKp[0];
package.parameter[4]=FloatKp[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::setUpMotorKi(uint8_t id,float Ki)
{
uint8_t IntKi[2],FloatKi[2];
FloatSep(Ki,IntKi,FloatKi);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 7;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=KI_UPPER_MOTOR;
package.parameter[1]=IntKi[0];
package.parameter[2]=IntKi[1];
package.parameter[3]=FloatKi[0];
package.parameter[4]=FloatKi[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::setLowMotorKi(uint8_t id,float Ki)
{
uint8_t IntKi[2],FloatKi[2];
FloatSep(Ki,IntKi,FloatKi);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 7;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=KI_LOWER_MOTOR;
package.parameter[1]=IntKi[0];
package.parameter[2]=IntKi[1];
package.parameter[3]=FloatKi[0];
package.parameter[4]=FloatKi[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::setUpMotorKd(uint8_t id,float Kd)
{
uint8_t IntKd[2],FloatKd[2];
FloatSep(Kd,IntKd,FloatKd);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 7;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=KD_UPPER_MOTOR;
package.parameter[1]=IntKd[0];
package.parameter[2]=IntKd[1];
package.parameter[3]=FloatKd[0];
package.parameter[4]=FloatKd[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::setLowMotorKd(uint8_t id,float Kd)
{
uint8_t IntKd[2],FloatKd[2];
FloatSep(Kd,IntKd,FloatKd);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 7;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=KD_LOWER_MOTOR;
package.parameter[1]=IntKd[0];
package.parameter[2]=IntKd[1];
package.parameter[3]=FloatKd[0];
package.parameter[4]=FloatKd[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::getUpMotorKpKiKd(uint8_t id,float *Kp,float *Ki,float *Kd)
{
uint8_t IntKp[2],FloatKp[2];
uint8_t IntKi[2],FloatKi[2];
uint8_t IntKd[2],FloatKd[2];
float int_buffer,float_buffer;
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 3;
package.instructionErrorId = READ_DATA;
package.parameter[0]=PID_UPPER_MOTOR;
rs485_dirc=1;
wait_us(RS485_DELAY);
com->sendCommunicatePacket(&package);
rs485_dirc=0;
wait_us(RS485_DELAY);
uint8_t status = com->receiveCommunicatePacket(&package);
if(status == ANDANTE_ERRBIT_NONE) {
IntKp[0]=package.parameter[0];
IntKp[1]=package.parameter[1];
FloatKp[0]=package.parameter[2];
FloatKp[1]=package.parameter[3];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntKp);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatKp)/FLOAT_CONVERTER;
*Kp=int_buffer+float_buffer;
IntKi[0]=package.parameter[4];
IntKi[1]=package.parameter[5];
FloatKi[0]=package.parameter[6];
FloatKi[1]=package.parameter[7];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntKi);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatKi)/FLOAT_CONVERTER;
*Ki=int_buffer+float_buffer;
IntKi[0]=package.parameter[8];
IntKi[1]=package.parameter[9];
FloatKi[0]=package.parameter[10];
FloatKi[1]=package.parameter[11];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntKd);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatKd)/FLOAT_CONVERTER;
*Kd=int_buffer+float_buffer;
}
return status;
}
uint8_t Bear_Communicate::getLowMotorKpKiKd(uint8_t id,float *Kp,float *Ki,float *Kd)
{
uint8_t IntKp[2],FloatKp[2];
uint8_t IntKi[2],FloatKi[2];
uint8_t IntKd[2],FloatKd[2];
float int_buffer,float_buffer;
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 3;
package.instructionErrorId = READ_DATA;
package.parameter[0]=PID_LOWER_MOTOR;
rs485_dirc=1;
wait_us(RS485_DELAY);
com->sendCommunicatePacket(&package);
rs485_dirc=0;
wait_us(RS485_DELAY);
uint8_t status = com->receiveCommunicatePacket(&package);
if(status == ANDANTE_ERRBIT_NONE) {
IntKp[0]=package.parameter[0];
IntKp[1]=package.parameter[1];
FloatKp[0]=package.parameter[2];
FloatKp[1]=package.parameter[3];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntKp);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatKp)/FLOAT_CONVERTER;
*Kp=int_buffer+float_buffer;
IntKi[0]=package.parameter[4];
IntKi[1]=package.parameter[5];
FloatKi[0]=package.parameter[6];
FloatKi[1]=package.parameter[7];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntKi);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatKi)/FLOAT_CONVERTER;
*Ki=int_buffer+float_buffer;
IntKi[0]=package.parameter[8];
IntKi[1]=package.parameter[9];
FloatKi[0]=package.parameter[10];
FloatKi[1]=package.parameter[11];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntKd);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatKd)/FLOAT_CONVERTER;
*Kd=int_buffer+float_buffer;
}
return status;
}
///////////////////////////////////////////// Save Data to EEPROM \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
uint8_t Bear_Communicate::setUpMargin(uint8_t id,float margin)
{
uint8_t IntMargin[2],FloatMargin[2];
FloatSep(margin,IntMargin,FloatMargin);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 7;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=UP_MARGIN;
package.parameter[1]=IntMargin[0];
package.parameter[2]=IntMargin[1];
package.parameter[3]=FloatMargin[0];
package.parameter[4]=FloatMargin[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::setLowMargin(uint8_t id,float margin)
{
uint8_t IntMargin[2],FloatMargin[2];
FloatSep(margin,IntMargin,FloatMargin);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 7;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=LOW_MARGIN;
package.parameter[1]=IntMargin[0];
package.parameter[2]=IntMargin[1];
package.parameter[3]=FloatMargin[0];
package.parameter[4]=FloatMargin[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::getUpMargin(uint8_t id,float *margin)
{
uint8_t IntMargin[2],FloatMargin[2];
float int_buffer,float_buffer;
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 3;
package.instructionErrorId = READ_DATA;
package.parameter[0]=UP_MARGIN;
rs485_dirc=1;
wait_us(RS485_DELAY);
com->sendCommunicatePacket(&package);
rs485_dirc=0;
wait_us(RS485_DELAY);
uint8_t status=com->receiveCommunicatePacket(&package);
if(status == ANDANTE_ERRBIT_NONE) {
IntMargin[0]=package.parameter[0];
IntMargin[1]=package.parameter[1];
FloatMargin[0]=package.parameter[2];
FloatMargin[1]=package.parameter[3];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntMargin);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatMargin)/FLOAT_CONVERTER;
*margin=int_buffer+float_buffer;
}
return status;
}
uint8_t Bear_Communicate::getLowMargin(uint8_t id,float *margin)
{
uint8_t IntMargin[2],FloatMargin[2];
float int_buffer,float_buffer;
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 3;
package.instructionErrorId = READ_DATA;
package.parameter[0]=LOW_MARGIN;
rs485_dirc=1;
wait_us(RS485_DELAY);
com->sendCommunicatePacket(&package);
rs485_dirc=0;
wait_us(RS485_DELAY);
uint8_t status=com->receiveCommunicatePacket(&package);
if(status == ANDANTE_ERRBIT_NONE) {
IntMargin[0]=package.parameter[0];
IntMargin[1]=package.parameter[1];
FloatMargin[0]=package.parameter[2];
FloatMargin[1]=package.parameter[3];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntMargin);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatMargin)/FLOAT_CONVERTER;
*margin=int_buffer+float_buffer;
}
return status;
}
uint8_t Bear_Communicate::setHeight(uint8_t id,float height)
{
uint8_t IntHeight[2],FloatHeight[2];
FloatSep(height,IntHeight,FloatHeight);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 7;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=HEIGHT;
package.parameter[1]=IntHeight[0];
package.parameter[2]=IntHeight[1];
package.parameter[3]=FloatHeight[0];
package.parameter[4]=FloatHeight[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::getHeight(uint8_t id,float *height)
{
uint8_t IntHeight[2],FloatHeight[2];
float int_buffer,float_buffer;
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 3;
package.instructionErrorId = READ_DATA;
package.parameter[0]=HEIGHT;
rs485_dirc=1;
wait_us(RS485_DELAY);
com->sendCommunicatePacket(&package);
rs485_dirc=0;
wait_us(RS485_DELAY);
uint8_t status=com->receiveCommunicatePacket(&package);
if(status == ANDANTE_ERRBIT_NONE) {
IntHeight[0]=package.parameter[0];
IntHeight[1]=package.parameter[1];
FloatHeight[0]=package.parameter[2];
FloatHeight[1]=package.parameter[3];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntHeight);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatHeight)/FLOAT_CONVERTER;
*height=int_buffer+float_buffer;
}
return status;
}
uint8_t Bear_Communicate::setWheelPos(uint8_t id,float WheelPos)
{
uint8_t IntWheelPos[2],FloatWheelPos[2];
FloatSep(WheelPos,IntWheelPos,FloatWheelPos);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 7;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=WHEELPOS;
package.parameter[1]=IntWheelPos[0];
package.parameter[2]=IntWheelPos[1];
package.parameter[3]=FloatWheelPos[0];
package.parameter[4]=FloatWheelPos[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::getWheelPos(uint8_t id,float *WheelPos)
{
uint8_t IntWheelPos[2],FloatWheelPos[2];
float int_buffer,float_buffer;
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 3;
package.instructionErrorId = READ_DATA;
package.parameter[0]=WHEELPOS;
rs485_dirc=1;
wait_us(RS485_DELAY);
com->sendCommunicatePacket(&package);
rs485_dirc=0;
wait_us(RS485_DELAY);
uint8_t status=com->receiveCommunicatePacket(&package);
if(status == ANDANTE_ERRBIT_NONE) {
IntWheelPos[0]=package.parameter[0];
IntWheelPos[1]=package.parameter[1];
FloatWheelPos[0]=package.parameter[2];
FloatWheelPos[1]=package.parameter[3];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntWheelPos);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatWheelPos)/FLOAT_CONVERTER;
*WheelPos=int_buffer+float_buffer;
}
return status;
}
uint8_t Bear_Communicate::setMagData(uint8_t id,float x_max,float x_min,float y_max,float y_min,float z_max,float z_min)
{
uint8_t IntXmax[2],FloatXmax[2];
uint8_t IntXmin[2],FloatXmin[2];
uint8_t IntYmax[2],FloatYmax[2];
uint8_t IntYmin[2],FloatYmin[2];
uint8_t IntZmax[2],FloatZmax[2];
uint8_t IntZmin[2],FloatZmin[2];
FloatSep(x_max,IntXmax,FloatXmax);
FloatSep(x_min,IntXmin,FloatXmin);
FloatSep(y_max,IntYmax,FloatYmax);
FloatSep(y_min,IntYmin,FloatYmin);
FloatSep(z_max,IntZmax,FloatZmax);
FloatSep(z_min,IntZmin,FloatZmin);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 27;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=MOTOR_UPPER_ANG;
package.parameter[1]=IntXmax[0];
package.parameter[2]=IntXmax[1];
package.parameter[3]=FloatXmax[0];
package.parameter[4]=FloatXmax[1];
package.parameter[5]=IntXmin[0];
package.parameter[6]=IntXmin[1];
package.parameter[7]=FloatXmin[0];
package.parameter[8]=FloatXmin[1];
package.parameter[9]=IntYmax[0];
package.parameter[10]=IntYmax[1];
package.parameter[11]=FloatYmax[0];
package.parameter[12]=FloatYmax[1];
package.parameter[13]=IntYmin[0];
package.parameter[14]=IntYmin[1];
package.parameter[15]=FloatYmin[0];
package.parameter[16]=FloatYmin[1];
package.parameter[17]=IntZmax[0];
package.parameter[18]=IntZmax[1];
package.parameter[19]=FloatZmax[0];
package.parameter[20]=FloatZmax[1];
package.parameter[21]=IntZmin[0];
package.parameter[22]=IntZmin[1];
package.parameter[23]=FloatZmin[0];
package.parameter[24]=FloatZmin[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::getMagData(uint8_t id,float *x_max,float *x_min,float *y_max,float *y_min,float *z_max,float *z_min)
{
uint8_t IntXmax[2],FloatXmax[2];
uint8_t IntXmin[2],FloatXmin[2];
uint8_t IntYmax[2],FloatYmax[2];
uint8_t IntYmin[2],FloatYmin[2];
uint8_t IntZmax[2],FloatZmax[2];
uint8_t IntZmin[2],FloatZmin[2];
float int_buffer,float_buffer;
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 3;
package.instructionErrorId = READ_DATA;
package.parameter[0]=MAG_DATA;
rs485_dirc=1;
wait_us(RS485_DELAY);
com->sendCommunicatePacket(&package);
rs485_dirc=0;
wait_us(RS485_DELAY);
uint8_t status = com->receiveCommunicatePacket(&package);
if(status == ANDANTE_ERRBIT_NONE) {
IntXmax[0]=package.parameter[0];
IntXmax[1]=package.parameter[1];
FloatXmax[0]=package.parameter[2];
FloatXmax[1]=package.parameter[3];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntXmax);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatXmax)/FLOAT_CONVERTER;
*x_max=int_buffer+float_buffer;
IntXmin[0]=package.parameter[4];
IntXmin[1]=package.parameter[5];
FloatXmin[0]=package.parameter[6];
FloatXmin[1]=package.parameter[7];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntXmin);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatXmin)/FLOAT_CONVERTER;
*x_min=int_buffer+float_buffer;
IntYmax[0]=package.parameter[8];
IntYmax[1]=package.parameter[9];
FloatYmax[0]=package.parameter[10];
FloatYmax[1]=package.parameter[11];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntYmax);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatYmax)/FLOAT_CONVERTER;
*y_max=int_buffer+float_buffer;
IntYmin[0]=package.parameter[12];
IntYmin[1]=package.parameter[13];
FloatYmin[0]=package.parameter[14];
FloatYmin[1]=package.parameter[15];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntYmin);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatYmin)/FLOAT_CONVERTER;
*y_min=int_buffer+float_buffer;
IntZmax[0]=package.parameter[16];
IntZmax[1]=package.parameter[17];
FloatZmax[0]=package.parameter[18];
FloatZmax[1]=package.parameter[19];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntZmax);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatZmax)/FLOAT_CONVERTER;
*z_max=int_buffer+float_buffer;
IntZmin[0]=package.parameter[20];
IntZmin[1]=package.parameter[21];
FloatZmin[0]=package.parameter[22];
FloatZmin[1]=package.parameter[23];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntZmin);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatZmin)/FLOAT_CONVERTER;
*z_min=int_buffer+float_buffer;
}
return status;
}
uint8_t Bear_Communicate::setOffset(uint8_t id,float offset_y,float offset_z)
{
uint8_t IntOffset_Y[2],FloatOffset_Y[2];
uint8_t IntOffset_Z[2],FloatOffset_Z[2];
FloatSep(offset_y,IntOffset_Y,FloatOffset_Y);
FloatSep(offset_z,IntOffset_Z,FloatOffset_Z);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 11;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=OFFSET;
package.parameter[1]=IntOffset_Y[0];
package.parameter[2]=IntOffset_Y[1];
package.parameter[3]=FloatOffset_Y[0];
package.parameter[4]=FloatOffset_Y[1];
package.parameter[5]=IntOffset_Z[0];
package.parameter[6]=IntOffset_Z[1];
package.parameter[7]=FloatOffset_Z[0];
package.parameter[8]=FloatOffset_Z[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::getOffset(uint8_t id,float *offset_y,float *offset_z)
{
uint8_t IntOffset_Y[2],FloatOffset_Y[2];
uint8_t IntOffset_Z[2],FloatOffset_Z[2];
float int_buffer,float_buffer;
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 3;
package.instructionErrorId = READ_DATA;
package.parameter[0] = OFFSET;
rs485_dirc=1;
wait_us(RS485_DELAY);
com->sendCommunicatePacket(&package);
rs485_dirc=0;
wait_us(RS485_DELAY);
uint8_t status = com->receiveCommunicatePacket(&package);
if(status == ANDANTE_ERRBIT_NONE) {
IntOffset_Y[0]=package.parameter[0];
IntOffset_Y[1]=package.parameter[1];
FloatOffset_Y[0]=package.parameter[2];
FloatOffset_Y[1]=package.parameter[3];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntOffset_Y);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatOffset_Y)/FLOAT_CONVERTER;
*offset_y=int_buffer+float_buffer;
IntOffset_Z[0]=package.parameter[4];
IntOffset_Z[1]=package.parameter[5];
FloatOffset_Z[0]=package.parameter[6];
FloatOffset_Z[1]=package.parameter[7];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntOffset_Z);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatOffset_Z)/FLOAT_CONVERTER;
*offset_z=int_buffer+float_buffer;
}
return status;
}
uint8_t Bear_Communicate::setBodyLength(uint8_t id,float body_length)
{
uint8_t IntBodyLength[2],FloatBodyLength[2];
FloatSep(body_length,IntBodyLength,FloatBodyLength);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 7;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=BODY_LENGTH;
package.parameter[1]=IntBodyLength[0];
package.parameter[2]=IntBodyLength[1];
package.parameter[3]=FloatBodyLength[0];
package.parameter[4]=FloatBodyLength[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::getBodyLength(uint8_t id,float *body_length)
{
uint8_t IntBodyLength[2],FloatBodyLength[2];
float int_buffer,float_buffer;
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 3;
package.instructionErrorId = READ_DATA;
package.parameter[0]=BODY_LENGTH;
rs485_dirc=1;
wait_us(RS485_DELAY);
com->sendCommunicatePacket(&package);
rs485_dirc=0;
wait_us(RS485_DELAY);
uint8_t status=com->receiveCommunicatePacket(&package);
if(status == ANDANTE_ERRBIT_NONE) {
IntBodyLength[0]=package.parameter[0];
IntBodyLength[1]=package.parameter[1];
FloatBodyLength[0]=package.parameter[2];
FloatBodyLength[1]=package.parameter[3];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntBodyLength);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatBodyLength)/FLOAT_CONVERTER;
*body_length=int_buffer+float_buffer;
}
return status;
}
uint8_t Bear_Communicate::setUpAngleRange(uint8_t id,float max_angle,float min_angle)
{
uint8_t IntMaxAngle[2],FloatMaxAngle[2];
uint8_t IntMinAngle[2],FloatMinAngle[2];
FloatSep(max_angle,IntMaxAngle,FloatMaxAngle);
FloatSep(min_angle,IntMinAngle,FloatMinAngle);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 11;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=ANGLE_RANGE_UP;
package.parameter[1]=IntMaxAngle[0];
package.parameter[2]=IntMaxAngle[1];
package.parameter[3]=FloatMaxAngle[0];
package.parameter[4]=FloatMaxAngle[1];
package.parameter[5]=IntMinAngle[0];
package.parameter[6]=IntMinAngle[1];
package.parameter[7]=FloatMinAngle[0];
package.parameter[8]=FloatMinAngle[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::setLowAngleRange(uint8_t id,float max_angle,float min_angle)
{
uint8_t IntMaxAngle[2],FloatMaxAngle[2];
uint8_t IntMinAngle[2],FloatMinAngle[2];
FloatSep(max_angle,IntMaxAngle,FloatMaxAngle);
FloatSep(min_angle,IntMinAngle,FloatMinAngle);
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 11;
package.instructionErrorId = WRITE_DATA;
package.parameter[0]=ANGLE_RANGE_LOW;
package.parameter[1]=IntMaxAngle[0];
package.parameter[2]=IntMaxAngle[1];
package.parameter[3]=FloatMaxAngle[0];
package.parameter[4]=FloatMaxAngle[1];
package.parameter[5]=IntMinAngle[0];
package.parameter[6]=IntMinAngle[1];
package.parameter[7]=FloatMinAngle[0];
package.parameter[8]=FloatMinAngle[1];
rs485_dirc=1;
wait_us(RS485_DELAY);
return com->sendCommunicatePacket(&package);
}
uint8_t Bear_Communicate::getUpAngleRange(uint8_t id,float *max_angle,float *min_angle)
{
uint8_t IntMaxAngle[2],FloatMaxAngle[2];
uint8_t IntMinAngle[2],FloatMinAngle[2];
float int_buffer,float_buffer;
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 3;
package.instructionErrorId = READ_DATA;
package.parameter[0] = ANGLE_RANGE_UP;
rs485_dirc=1;
wait_us(RS485_DELAY);
com->sendCommunicatePacket(&package);
rs485_dirc=0;
wait_us(RS485_DELAY);
uint8_t status = com->receiveCommunicatePacket(&package);
if(status == ANDANTE_ERRBIT_NONE) {
IntMaxAngle[0]=package.parameter[0];
IntMaxAngle[1]=package.parameter[1];
FloatMaxAngle[0]=package.parameter[2];
FloatMaxAngle[1]=package.parameter[3];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntMaxAngle);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatMaxAngle)/FLOAT_CONVERTER;
*max_angle=int_buffer+float_buffer;
IntMinAngle[0]=package.parameter[4];
IntMinAngle[1]=package.parameter[5];
FloatMinAngle[0]=package.parameter[6];
FloatMinAngle[1]=package.parameter[7];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntMinAngle);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatMinAngle)/FLOAT_CONVERTER;
*min_angle=int_buffer+float_buffer;
}
return status;
}
uint8_t Bear_Communicate::getLowAngleRange(uint8_t id,float *max_angle,float *min_angle)
{
uint8_t IntMaxAngle[2],FloatMaxAngle[2];
uint8_t IntMinAngle[2],FloatMinAngle[2];
float int_buffer,float_buffer;
ANDANTE_PROTOCOL_PACKET package;
package.robotId = id;
package.length = 3;
package.instructionErrorId = READ_DATA;
package.parameter[0] = ANGLE_RANGE_LOW;
rs485_dirc=1;
wait_us(RS485_DELAY);
com->sendCommunicatePacket(&package);
rs485_dirc=0;
wait_us(RS485_DELAY);
uint8_t status = com->receiveCommunicatePacket(&package);
if(status == ANDANTE_ERRBIT_NONE) {
IntMaxAngle[0]=package.parameter[0];
IntMaxAngle[1]=package.parameter[1];
FloatMaxAngle[0]=package.parameter[2];
FloatMaxAngle[1]=package.parameter[3];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntMaxAngle);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatMaxAngle)/FLOAT_CONVERTER;
*max_angle=int_buffer+float_buffer;
IntMinAngle[0]=package.parameter[4];
IntMinAngle[1]=package.parameter[5];
FloatMinAngle[0]=package.parameter[6];
FloatMinAngle[1]=package.parameter[7];
int_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(IntMinAngle);
float_buffer=(float)Utilities::ConvertUInt8ArrayToInt16(FloatMinAngle)/FLOAT_CONVERTER;
*min_angle=int_buffer+float_buffer;
}
return status;
}