Georgia Tech - ECE 4180 Project - Smart Fan
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Smart Fan
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Dependencies: mbed Servo mbed-rtos X_NUCLEO_53L0A1
main.cpp
- Committer:
- johnAlexander
- Date:
- 2016-11-28
- Revision:
- 1:3483e701ec59
- Parent:
- 0:ce8359133ae6
- Child:
- 3:b3f70617a6b3
File content as of revision 1:3483e701ec59:
#include "mbed.h"
#include "x_nucleo_53l0a1.h"
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#include <assert.h>
/* This VL53L0X Expansion board test application performs a range measurement in polling mode
on the onboard embedded top sensor.
The measured data is displayed on the on-board 4-digit display.
User Blue button stops the current measurement and the entire program, releasing all resources.
Reset button is used to restart the program. */
/* Polling operating modes don`t require callback function that handles IRQ
Callback IRQ functions are used only for measure that require interrupt */
/* GetMeasurement is asynchronous! It returns NOT_READY if the measurement value
is not ready to be read from the corresponding register. So you need to wait
for the result to be ready */
#define VL53L0_I2C_SDA D14
#define VL53L0_I2C_SCL D15
#define RANGE 0
static X_NUCLEO_53L0A1 *board=NULL;
VL53L0X_RangingMeasurementData_t data_sensor_centre;
OperatingMode operating_mode;
/* flags that handle interrupt request */
bool int_sensor_centre=false, int_stop_measure=false;
/* ISR callback function of the sensor_centre */
void SensorTopIRQ(void)
{
int_sensor_centre=true;
board->sensor_centre->DisableInterruptMeasureDetectionIRQ();
}
/* ISR callback function of the user blue button to stop program */
void StopMeasureIRQ(void)
{
int_stop_measure=true;
}
/* On board 4 digit local display refresh */
void DisplayRefresh(OperatingMode op_mode)
{
char str[5];
if (op_mode==range_single_shot_polling || op_mode==range_continuous_interrupt || op_mode==range_continuous_polling)
{
if (data_sensor_centre.RangeStatus == 0) // we have a valid range.
{
sprintf(str,"%d",data_sensor_centre.RangeMilliMeter);
}
else
{
sprintf(str,"%s","----");
}
}
board->display->DisplayString(str);
}
void RangeMeasure(DevI2C *device_i2c) {
int status;
/* creates the 53L0A1 expansion board singleton obj */
board=X_NUCLEO_53L0A1::Instance(device_i2c, A2, D8, D2);
board->display->DisplayString("53L0");
/* init the 53L0A1 expansion board with default values */
status=board->InitBoard();
if(status)
printf("Failed to init board!\n\r");
// operating_mode=range_continuous_polling;
operating_mode=range_single_shot_polling;
/* start the measure on sensor top */
status=board->sensor_centre->StartMeasurement(operating_mode, SensorTopIRQ);
if(!status)
{
while(1)
{
status=board->sensor_centre->GetMeasurement(operating_mode, &data_sensor_centre);
DisplayRefresh(operating_mode);
if(int_stop_measure) // Blue Button isr was triggered
{
status=board->sensor_centre->StopMeasurement(operating_mode); // stop the measure and exit
int_stop_measure = false;
printf("\nProgram stopped!\n\n\r");
break;
}
}
}
board->display->DisplayString("BYE");
delete board;
}
/*=================================== Main ==================================
Press the blue user button to stop the measurements in progress
=============================================================================*/
int main()
{
#if USER_BUTTON==PC_13 // we are cross compiling for Nucleo-f401
InterruptIn stop_button (USER_BUTTON);
stop_button.rise (&StopMeasureIRQ);
#endif
DevI2C *device_i2c =new DevI2C(VL53L0_I2C_SDA, VL53L0_I2C_SCL);
RangeMeasure(device_i2c); // start continuous measures
}