== Self test of device ==
char * I2C_Device_Name(int I2C_Bus, byte I2C_Address)
{
switch(I2C_Address)
{
case 0x26:
if (I2C_Bus == 0)
return("????");
if (I2C_Bus == 1)
return("ECG w/ NPXL");
break;
case 0x29:
return("VL53L0X");
break;
case 0x57:
return("MAX30102");
break;
case 0x5A:
return("MLX9164");
break;
case 0x68:
if (I2C_Bus == 0)
return("????");
if (I2C_Bus 1)
return("MPU6050 R");
break;
case 0x69:
if (I2C_Bus == 0)
return("AMG8833");
if (I2C_Bus == 1)
return("MPU6050 G");
break;
case 0x70:
return("TCA9548A");
case 0x38:
return("PCF8574");
break;
default:
return("????");
break;
}
}
int CNFG_x_offset = 0;
int CNFG_y_offset = 0;
int CNFG_x_width = 128;
int CNFG_y_height = 160;
void ConfigurationMainUnit()
{
byte comm_error, address;
int nDevices;
int box_top = CNFG_y_offset;
int box_bottom = box_top + CNFG_y_height;
int box_left = CNFG_x_offset;
int box_right = box_left + CNFG_x_width;
int box_width = CNFG_x_width;
int box_height = CNFG_y_height;
int I2C_text_y_offset = 20;
int text_x_offset = 5;
int text_y_offset = 10;
int text_y_spacing = 8;
char I2CLabel[16]="--------------";
DrawScreenCompartment(box_left,box_top,box_width,box_height,COMMON_BLUE,COMMON_WHITE);
DrawScreenText(box_left+20,box_top+4,"Main Unit",COMMON_YELLOW,COMMON_BLUE);
DrawScreenText(box_left+10,I2C_text_y_offset,"I2C Scan...",COMMON_YELLOW,COMMON_BLUE);
DrawScreenText(box_left+10,box_top+I2C_text_y_offset+8,"HEX",COMMON_YELLOW,COMMON_BLUE);
DrawScreenText(box_left+40,box_top+I2C_text_y_offset+8,"Device",COMMON_YELLOW,COMMON_BLUE);
Serial.println("Scanning...");
nDevices = 0;
for(address = 1; address < 127; address++ )
{
Wire.beginTransmission(address);
comm_error = Wire.endTransmission();
if (comm_error == 0)
{
nDevices++;
Serial.print("I2C device found at address 0x");
if (address<16)
{
Serial.print("0");
}
DrawScreenText(box_left+10,box_top+I2C_text_y_offset+16+(nDevices*8),String(address,HEX),COMMON_YELLOW,COMMON_BLUE);
Serial.println(address,HEX);
DrawScreenText(box_left+40,box_top+I2C_text_y_offset+16+(nDevices*8),I2C_Device_Name(0, address),COMMON_YELLOW,COMMON_BLUE);
}
else
if (comm_error == 4)
{
Serial.print("Unknown error at address 0x");
if (address<16)
{
Serial.print("0");
}
Serial.println(address,HEX);
}
}
if (nDevices == 0)
{
Serial.println("No I2C devices found!\n");
}
else
{
Serial.println("done\n");
}
}
void ConfigurationPort(int port_selection)
{
byte comm_error, address;
int nDevices;
int box_top = CNFG_y_offset;
int box_bottom = box_top + CNFG_y_height;
int box_left = CNFG_x_offset;
int box_right = box_left + CNFG_x_width;
int box_width = CNFG_x_width;
int box_height = CNFG_y_height;
int I2C_text_y_offset = 28;
int text_x_offset = 5;
int text_y_offset = 10;
int text_y_spacing = 8;
char I2CLabel[16]="--------------";
DrawScreenCompartment(box_left,box_top,box_width,box_height,COMMON_CYAN,COMMON_RED);
DrawScreenText(box_left+20,box_top+4,"Port "+String(port_selection),COMMON_BLACK,COMMON_CYAN);
DrawScreenText(box_left+20,box_top+12,Port_Type_Label[Port_Definitions.Port_Type[port_selection]],COMMON_BLACK,COMMON_CYAN);
DrawScreenText(box_left+10,box_top+I2C_text_y_offset,"I2C Scan...",COMMON_BLACK,COMMON_CYAN);
DrawScreenText(box_left+10,box_top+I2C_text_y_offset+8,"HEX",COMMON_BLACK,COMMON_CYAN);
DrawScreenText(box_left+40,box_top+I2C_text_y_offset+8,"Device",COMMON_BLACK,COMMON_CYAN);
Serial.println("Scanning...");
nDevices = 0;
I2CMux.openChannel(port_selection);
for(address = 1; address < 127; address++ )
{
Wire1.beginTransmission(address);
comm_error = Wire1.endTransmission();
if (comm_error == 0)
{
nDevices++;
Serial.print("I2C device found at address 0x");
if (address<16)
{
Serial.print("0");
}
DrawScreenText(box_left+10,box_top+I2C_text_y_offset+16+(nDevices*8),String(address,HEX),COMMON_BLACK,COMMON_CYAN);
Serial.println(address,HEX);
DrawScreenText(box_left+40,box_top+I2C_text_y_offset+16+(nDevices*8),I2C_Device_Name(1, address),COMMON_BLACK,COMMON_CYAN);
}
else
if (comm_error==4)
{
Serial.print("Unknown error at address 0x");
if (address<16)
{
Serial.print("0");
}
Serial.println(address,HEX);
}
}
if (nDevices == 0)
{
Serial.println("No I2C devices found!\n");
}
else
{
Serial.println("done\n");
}
I2CMux.closeChannel(port_selection);
}
void ConfigurationScans()
{
int configuration_select = 0;
bool refresh_screen = true;
int encoder_A = 0;
int encoder_B = 0;
while(configuration_select != -1)
{
switch(configuration_select)
{
case 0:
if (refresh_screen)
{
ConfigurationMainUnit();
Controls.reset_All();
}
refresh_screen = false;
break;
case 1:
if (refresh_screen)
ConfigurationPort(0);
refresh_screen = false;
break;
case 2:
if (refresh_screen)
ConfigurationPort(1);
refresh_screen = false;
break;
case 3:
if (refresh_screen)
ConfigurationPort(2);
refresh_screen = false;
break;
case 4:
if (refresh_screen)
ConfigurationPort(3);
refresh_screen = false;
break;
}
if (Controls.pcf_event)
{
encoder_A = Controls.encoder_A_Dir();
encoder_B = Controls.encoder_B_Dir();
if (encoder_B == 1)
{
if (configuration_select < 4)
++configuration_select;
refresh_screen = true;
}
if (encoder_B == -1)
{
if (configuration_select > 0)
--configuration_select;
refresh_screen = true;
}
if (Controls.encoder_A_Switch() = = 1)
{
configuration_select = -1;
}
Controls.pcf_event = false; // Cleans the interrupt status
delay(20);
}
}
}
Pseudo-Medical_Monitor_Code#Custom_Includes