Dave Clarke
Using Hexiware, Hexiware dock and an Alcohol click board, create your own breathalizer that connects to Wolksense to record your readings
Dependencies: Hexi_KW40Z Hexi_OLED_SSD1351
Fork of
Hexi_OLED_Text_Example
by 
Hexiwear
main.cpp
- Committer:
- daveyclk
- Date:
- 2016-09-27
- Revision:
- 6:7f4ba36b025f
- Parent:
- 5:a27fdb811237
File content as of revision 6:7f4ba36b025f:
/****************************************************************************
* Title : iBreathe Breathalyzer
* Filename : breathalyzer
* Author : Dave Clarke
* Origin Date : 27/09/2016
* Notes : Breathalyzer utilizing Hexiware, Alcohol click and Wolksense
*****************************************************************************/
/**************************CHANGE LIST **************************************
*
* Date Software Version Initials Description
* 27/09/16 1.0.0 DC Interface Created.
*
*****************************************************************************/
/**
* @page TEST_CFG Test Configurations
* <h3> Test configuration : </h3>
* @par
* <ul>
* <li><b> MCU </b> : MK64FN1M0XXX12 </li>
* <li><b> Dev. Board </b> : HEXIWEAR </li>
* <li><b> Oscillator </b> : 12 MHz external </li>
* <li><b> Ext. Modules </b> : Alcohol Click on mikroBUS 1 </li>
* <li><b> SW </b> : mBed OS5 </li>
* </ul>
*/
/**
* @mainpage
* <h3> Breathalyser created with HEXIWEAR and mBed OS 5 </h3>
* @par This will show you how much you've drunk and tell you with an Emoticon if
* you're too hammered to even consider driving. Using the Hexiware app the readings
* are transmitted to the cloud via bluetooth. Is it time to give up drinking yet?!
* <h3> Alcohol Features </h3>
* @par Alcohol click, Hexiwear docking station, Hexiware
*/
/******************************************************************************
* Includes
*******************************************************************************/
#include "mbed.h"
#include "Hexi_KW40Z.h"
#include "Hexi_OLED_SSD1351.h"
#include "OLED_types.h"
#include "OpenSans_Font.h"
#include "string.h"
#include "iBreatheImages.h"
/******************************************************************************
* Module Variable Definitions
*******************************************************************************/
#define LED_ON 0
#define LED_OFF 1
// Pointers to:
const uint8_t *welcome, // Welcome screen image
*blank, // blank image
*blow, // Start Blowing Image
*drink, // You've been drinking image
*drive, // Don't drive image
*hang, // You'll have a hangover image
*ini, // Initialising image
*sober; // Sober as a judge image
const float Vadc_3V3 = 0.00005035; // 16-Bit ADC step 3V3/65535 = 0.05035 mV
float Vrl = 0, // Output voltage
ambientAlc = 0, // Abmient Output voltage from sensor
SensorRes = 0, // SensorRes (Ohm) - Sensor resistance
SensorRes1 = 0, // SensorRes (Ohm) - Sensor resistance
ppm = 0, // ppm
ppm_1 = 0, // Ambient ppm variable
ratio = 0; // SensorRes/LoadRes ratio
unsigned short adc_rd = 0; //Initialise anologue read variable
const uint8_t ppmText[] = "ppm:"; // text for PPM label
char text[20], // Text array variables
text2[20],
text3[20];
float value[20], // initial sensor set up values
value1[20]; // initial sensor set up values
bool isFirstBoot = true;
/******************************************************************************
* Function Prototypes
*******************************************************************************/
void sysinit(void);
void ReadSensor();
void CalculatePPM(int times, bool amb);
void ambient(int times);
void StartHaptic(void);
void StopHaptic(void const *n);
void ButtonUp(void);
void txTask(void);
/******************************************************************************
* Instance setups
*******************************************************************************/
/* Define timer for haptic feedback */
RtosTimer hapticTimer(StopHaptic, osTimerOnce);
//set up Analog read pin for alcohol sensor
AnalogIn Alcohol(PTB2);
/* Instantiate the SSD1351 OLED Driver */
SSD1351 oled(PTB22,PTB21,PTC13,PTB20,PTE6, PTD15); /* (MOSI,SCLK,POWER,CS,RST,DC) */
/* Get OLED Class Default Text Properties */
oled_text_properties_t textProperties = {0};
/* Instantiate the Hexi KW40Z Driver (UART TX, UART RX) */
KW40Z kw40z_device(PTE24, PTE25);
/* LED and Haptic Set ups */
DigitalOut redLed(LED1);
DigitalOut greenLed(LED2);
DigitalOut blueLed(LED3);
DigitalOut haptic(PTB9);
/******************************************************************************
* Bluetooth button functions and passkey function
*******************************************************************************/
void ButtonRight(void)
{
StartHaptic();
kw40z_device.ToggleAdvertisementMode();
blueLed = kw40z_device.GetAdvertisementMode(); /*Indicate BLE Advertisment Mode*/
redLed = !kw40z_device.GetAdvertisementMode(); /*Indicate BLE Advertisment Mode*/
greenLed = !kw40z_device.GetAdvertisementMode(); /*Indicate BLE Advertisment Mode*/
}
void ButtonLeft(void)
{
StartHaptic();
kw40z_device.ToggleAdvertisementMode();
blueLed = kw40z_device.GetAdvertisementMode(); /*Indicate BLE Advertisment Mode*/
redLed = !kw40z_device.GetAdvertisementMode(); /*Indicate BLE Advertisment Mode*/
greenLed = !kw40z_device.GetAdvertisementMode(); /*Indicate BLE Advertisment Mode*/
}
void PassKey(void)
{
StartHaptic();
strcpy((char *) text,"PAIR CODE");
oled.TextBox((uint8_t *)text,0,25,95,18);
/* Display Bond Pass Key in a 95px by 18px textbox at x=0,y=40 */
sprintf(text3,"%d", kw40z_device.GetPassKey());
oled.TextBox((uint8_t *)text3,0,40,95,18);
}
/******************************************************************************
* Main
*******************************************************************************/
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
int main()
{
/* Set pointers to the BMPs stored in iBreatheImages.c */
welcome = iBreatheWS_bmp; // Welcome screen image
blank = iBreatheBlank_bmp; // blank image
blow = iBreatheBlow_bmp; // Start Blowing Image
drink = iBreatheDrink_bmp; // You've been drinking image
drive = iBreatheDrive_bmp; // Don't drive image
hang = iBreatheHang_bmp; // You'll have a hangover image
ini = iBreatheini_bmp; // Initialising image
sober = iBreatheSober_bmp; // Sober as a judge image
/* Set initial Values */
sysinit();
}
/******************************************************************************
* Public Function Definitions
*******************************************************************************/
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/**************************************************************************************************
* Function readSensor(void)
* -------------------------------------------------------------------------------------------------
* Overview: Read sensor
* Input: None
* Output: None
**************************************************************************************************/
void ReadSensor()
{
/* Read 16 Bit Analog value */
adc_rd = Alcohol.read_u16();
// pause 200ms
Thread::wait(200);
}
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/**************************************************************************************************
* Function CalculatePPM(Int times, bool amb)
* -------------------------------------------------------------------------------------------------
* Overview: Calculation of PPM
* Input: times = Number of samples to take, amb sets either ambient reading or test reading (true for test)
* Output: None
**************************************************************************************************/
void CalculatePPM(int times, bool amb)
{
float lgPPM;
/* Read values x times */
for(int x = 0; x < times; x++)
{
ReadSensor();
value[x] = ((float)adc_rd * Vadc_3V3);
StartHaptic();
Thread::wait(50);
}
/* Calculate the average value for accuratcy */
for(int y = 0; y < times; y++)
{
Vrl += value[y];
}
Vrl = Vrl / times;
/* Set SensorRes reference value */
SensorRes = (Vrl / 3.3);
/* Set ratio */
ratio = SensorRes1 / SensorRes;
/* Convert to PPM */
lgPPM = ( log10( ratio ) * -1.5512 ) + 2.5911;
/* If true create test result, flase creates reference result */
if (amb == true)
{
ppm = pow( 10, lgPPM );
}
else
{
ppm_1 = pow( 10, lgPPM );
}
}
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/**************************************************************************************************
* Function void ambient(int times)
* -------------------------------------------------------------------------------------------------
* Overview: Reading of the Ambient Voltgage of the sensor for reference
* Input: times = Number of samples to take
* Output: None
**************************************************************************************************/
void ambient(int times)
{
/* Read ambient values x times flashing green led*/
for(int x = 0; x < times; x++)
{
redLed = LED_OFF;
greenLed = LED_OFF;
blueLed = LED_OFF;
ReadSensor();
value1[x] = (float)adc_rd * Vadc_3V3;
redLed = LED_OFF;
greenLed = LED_ON;
blueLed = LED_OFF;
Thread::wait(48);
}
/* Calculate the average value for accuratcy */
for(int y = 0; y < times; y++)
{
ambientAlc+=value1[y];
}
ambientAlc = ambientAlc / times;
/* Set SensorRes1 reference value */
SensorRes1 = (ambientAlc / 3.3);
}
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/**************************************************************************************************
* Function void StartHaptic(void)
* -------------------------------------------------------------------------------------------------
* Overview: Start Buzzing haptic motor
* Input: None
* Output: None
**************************************************************************************************/
void StartHaptic(void)
{
hapticTimer.start(50);
haptic = 1;
}
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/**************************************************************************************************
* Function void StopHaptic(void)
* -------------------------------------------------------------------------------------------------
* Overview: Stop Buzzing haptic motor
* Input: None
* Output: None
**************************************************************************************************/
void StopHaptic(void const *n) {
haptic = 0;
hapticTimer.stop();
}
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/**************************************************************************************************
* Function void ButtonUp(void)
* -------------------------------------------------------------------------------------------------
* Overview: Function called whe up button pressed, Begins Breathilyzer testing procedure
* Input: None
* Output: None
**************************************************************************************************/
void ButtonUp(void)
{
StartHaptic();
bool Ref = false;
bool Test = true;
/* LED set to green for test beginning*/
redLed = LED_OFF;
greenLed = LED_ON;
blueLed = LED_OFF;
/* Fill 96px by 96px Screen with 96px by 96px Initialising Image starting at x=0,y=0 */
oled.DrawImage(ini,0,0);
/* first boot bug work around to stop junk values */
if (isFirstBoot == true)
{
/*read ambient atmosphere levels with 10 samples and set flag to show it's ambient basline figure*/
ambient(1);
CalculatePPM(1,Ref);
isFirstBoot = false;
}
/*read ambient atmosphere levels with 10 samples and set flag to show it's ambient basline figure*/
ambient(10);
CalculatePPM(10,Ref);
/* Fill 96px by 96px Screen with 96px by 96px Blowing Image starting at x=0,y=0 */
oled.DrawImage(blow,0,0);
/*read breathe alcohol levels with 10 samples and set flag to show it's breathilyzer test figure*/
CalculatePPM(10,Test);
/*Calculate the difference in Alcohol level based on Ambient and test sample*/
ppm = ppm - ppm_1;
/*Throw away any values less than 0*/
if (ppm < 0)
{
ppm = 0;
}
/* Fill 96px by 96px Screen with 96px by 96px Blank Background Image starting at x=0,y=0 */
oled.DrawImage(blank,0,0);
/* Show Calculated alcohol level in PPM and send data via bluetooth to the cloud */
oled.SetTextProperties(&textProperties);
oled.Label(ppmText,20,36);
sprintf(text,"%.2f",ppm);
oled.Label((uint8_t *)text,50,36);
Thread::wait(1000);
/* Currently sending to the Pressure variable as a temp place holder */
kw40z_device.SendPressure(ppm * 10);
/* You've got a Hangover coming!*/
if ( ppm > 200)
{
redLed = LED_ON;
greenLed = LED_OFF;
blueLed = LED_OFF;
StartHaptic();
/* Fill 96px by 96px Screen with 96px by 96px Hangover Image starting at x=0,y=0 */
oled.DrawImage(hang,0,0);
}
/* You Shouldn't drive */
else if (ppm < 200 && ppm > 150)
{
redLed = LED_ON;
greenLed = LED_OFF;
blueLed = LED_ON;
StartHaptic();
/* Fill 96px by 96px Screen with 96px by 96px Don't Drive Image starting at x=0,y=0 */
oled.DrawImage(drive,0,0);
}
/* You've had a drink */
else if (ppm < 150 && ppm > 50)
{
redLed = LED_OFF;
greenLed = LED_ON;
blueLed = LED_ON;
StartHaptic();
/* Fill 96px by 96px Screen with 96px by 96px Had a drink Image starting at x=0,y=0 */
oled.DrawImage(drink,0,0);
}
/* Sober as a judge*/
else
{
redLed = LED_OFF;
greenLed = LED_ON;
blueLed = LED_OFF;
StartHaptic();
oled.DrawImage(sober,0,0);
}
Thread::wait(5000);
/* Go back to start screen */
sysinit();
}
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
/**************************************************************************************************
* Function void sysint(void)
* -------------------------------------------------------------------------------------------------
* Overview: System Initial Values Set up
* Input: None
* Output: None
**************************************************************************************************/
void sysinit(void)
{
/* Set LED to Blue by default*/
redLed = LED_OFF;
greenLed = LED_OFF;
blueLed = LED_ON;
/* Turn on the backlight of the OLED Display */
oled.DimScreenON();
/* Fill 96px by 96px Screen with 96px by 96px Welcome Image starting at x=0,y=0 */
oled.DrawImage(welcome,0,0);
/* Register callbacks to application functions */
kw40z_device.attach_buttonUp(&ButtonUp);
kw40z_device.attach_buttonLeft(&ButtonLeft);
kw40z_device.attach_buttonRight(&ButtonRight);
kw40z_device.attach_passkey(&PassKey);
/* Send sensor data to bluetooth */
kw40z_device.SendSetApplicationMode(GUI_CURRENT_APP_SENSOR_TAG);
/* Change font color to White */
oled.GetTextProperties(&textProperties);
textProperties.fontColor = COLOR_WHITE;
oled.SetTextProperties(&textProperties);
}