mohamed achour
ffcvv
Dependencies: vl53l0x_api libxDot-mbed5
Diff: main.cpp
- Revision:
- 3:83ec4984a7af
- Parent:
- 2:8ac50bd2c7a1
--- a/main.cpp Fri Apr 21 11:22:11 2017 +0000
+++ b/main.cpp Tue Apr 23 14:27:14 2019 +0000
@@ -3,38 +3,17 @@
#include "vl53l0x_platform.h"
#include "vl53l0x_i2c_platform.h"
+#define USE_I2C_2V8
+
Serial pc(USBTX, USBRX);
DigitalOut led(LED1);
-void print_pal_error(VL53L0X_Error Status){
- char buf[VL53L0X_MAX_STRING_LENGTH];
- VL53L0X_GetPalErrorString(Status, buf);
- printf("API Status: %i : %s\n", Status, buf);
-}
-
-void print_range_status(VL53L0X_RangingMeasurementData_t* pRangingMeasurementData){
- char buf[VL53L0X_MAX_STRING_LENGTH];
- uint8_t RangeStatus;
-
- /*
- * New Range Status: data is valid when pRangingMeasurementData->RangeStatus = 0
- */
-
- RangeStatus = pRangingMeasurementData->RangeStatus;
-
- VL53L0X_GetRangeStatusString(RangeStatus, buf);
- printf("Range Status: %i : %s\n", RangeStatus, buf);
-
-}
-
VL53L0X_Error WaitMeasurementDataReady(VL53L0X_DEV Dev) {
VL53L0X_Error Status = VL53L0X_ERROR_NONE;
uint8_t NewDatReady=0;
uint32_t LoopNb;
-
- // Wait until it finished
- // use timeout to avoid deadlock
+
if (Status == VL53L0X_ERROR_NONE) {
LoopNb = 0;
do {
@@ -59,8 +38,6 @@
uint32_t StopCompleted=0;
uint32_t LoopNb;
- // Wait until it finished
- // use timeout to avoid deadlock
if (Status == VL53L0X_ERROR_NONE) {
LoopNb = 0;
do {
@@ -82,176 +59,65 @@
}
+
int main()
{
-
+ int x=1, measure=0;
+ int ave=0, sum=0;
VL53L0X_Error Status = VL53L0X_ERROR_NONE;
VL53L0X_Dev_t MyDevice;
VL53L0X_Dev_t *pMyDevice = &MyDevice;
+ VL53L0X_RangingMeasurementData_t RangingMeasurementData;
+ VL53L0X_RangingMeasurementData_t *pRangingMeasurementData = &RangingMeasurementData;
VL53L0X_Version_t Version;
- VL53L0X_Version_t *pVersion = &Version;
- VL53L0X_DeviceInfo_t DeviceInfo;
-
- int32_t status_int;
-
- pc.printf("VL53L0X API Simple Ranging Example\r\n");
// Initialize Comms
pMyDevice->I2cDevAddr = 0x52;
pMyDevice->comms_type = 1;
pMyDevice->comms_speed_khz = 400;
- pc.printf("Init comms\r\n");
+
+ VL53L0X_ERROR_CONTROL_INTERFACE;
+ VL53L0X_RdWord(&MyDevice, VL53L0X_REG_OSC_CALIBRATE_VAL,0);
+ VL53L0X_DataInit(&MyDevice); // Data initialization
+ Status = VL53L0X_ERROR_NONE;
+ uint32_t refSpadCount;
+ uint8_t isApertureSpads;
+ uint8_t VhvSettings;
+ uint8_t PhaseCal;
- if(Status == VL53L0X_ERROR_NONE)
- {
- status_int = VL53L0X_GetVersion(pVersion);
- if (status_int != 0)
- Status = VL53L0X_ERROR_CONTROL_INTERFACE;
- }
- pc.printf("VL53L0X API Version: %d.%d.%d (revision %d)\r\n", pVersion->major, pVersion->minor ,pVersion->build, pVersion->revision);
-
- int addr;
-
- addr = VL53L0X_scan();
- printf("Device found at: %i\r\n", addr);
- //uint8_t data;
- //data=0;
- if(Status == VL53L0X_ERROR_NONE)
- {
- printf ("Call of VL53L0X_DataInit\n");
- uint16_t osc_calibrate_val=0;
- Status = VL53L0X_RdWord(&MyDevice, VL53L0X_REG_OSC_CALIBRATE_VAL,&osc_calibrate_val);
- printf("%i\n",osc_calibrate_val);
- Status = VL53L0X_DataInit(&MyDevice); // Data initialization
- print_pal_error(Status);
- }
+ VL53L0X_StaticInit(pMyDevice); // Device Initialization
+ VL53L0X_PerformRefSpadManagement(pMyDevice, &refSpadCount, &isApertureSpads); // Device Initialization
+ VL53L0X_PerformRefCalibration(pMyDevice, &VhvSettings, &PhaseCal); // Device Initialization
+ VL53L0X_SetDeviceMode(pMyDevice, VL53L0X_DEVICEMODE_CONTINUOUS_RANGING); // Setup in single ranging mode
+ VL53L0X_SetLimitCheckValue(pMyDevice, VL53L0X_CHECKENABLE_SIGNAL_RATE_FINAL_RANGE, (FixPoint1616_t)(0.25*65536)); //High Accuracy mode, see API PDF
+ VL53L0X_SetLimitCheckValue(pMyDevice, VL53L0X_CHECKENABLE_SIGMA_FINAL_RANGE, (FixPoint1616_t)(18*65536)); //High Accuracy mode, see API PDF
+ VL53L0X_SetMeasurementTimingBudgetMicroSeconds(pMyDevice, 200000); //High Accuracy mode, see API PDF
+ VL53L0X_StartMeasurement(pMyDevice);
- if(Status == VL53L0X_ERROR_NONE)
- {
- Status = VL53L0X_GetDeviceInfo(&MyDevice, &DeviceInfo);
- if(Status == VL53L0X_ERROR_NONE)
- {
- printf("VL53L0X_GetDeviceInfo:\n");
- printf("Device Name : %s\n", DeviceInfo.Name);
- printf("Device Type : %s\n", DeviceInfo.Type);
- printf("Device ID : %s\n", DeviceInfo.ProductId);
- printf("ProductRevisionMajor : %d\n", DeviceInfo.ProductRevisionMajor);
- printf("ProductRevisionMinor : %d\n", DeviceInfo.ProductRevisionMinor);
-
- if ((DeviceInfo.ProductRevisionMinor != 1) && (DeviceInfo.ProductRevisionMinor != 1)) {
- printf("Error expected cut 1.1 but found cut %d.%d\n",
- DeviceInfo.ProductRevisionMajor, DeviceInfo.ProductRevisionMinor);
- Status = VL53L0X_ERROR_NOT_SUPPORTED;
- }
+ while (1){
+ while(x<=50){
+ WaitMeasurementDataReady(pMyDevice);
+ VL53L0X_GetRangingMeasurementData(pMyDevice, pRangingMeasurementData);
+ measure=pRangingMeasurementData->RangeMilliMeter;
+ //printf("In loop measurement %d\n", mea);
+ sum=sum+measure;
+ led=!led;
+ // Clear the interrupt
+ VL53L0X_ClearInterruptMask(pMyDevice, VL53L0X_REG_SYSTEM_INTERRUPT_GPIO_NEW_SAMPLE_READY);
+ VL53L0X_PollingDelay(pMyDevice);
+ x++;
}
- print_pal_error(Status);
+ ave=sum/x;
+ pc.printf("Average is %d\n", ave);
+ x=1;
+ sum=0;
+ wait(20);
}
- VL53L0X_RangingMeasurementData_t RangingMeasurementData;
- VL53L0X_RangingMeasurementData_t *pRangingMeasurementData = &RangingMeasurementData;
- Status = VL53L0X_ERROR_NONE;
- uint32_t refSpadCount;
- uint8_t isApertureSpads;
- uint8_t VhvSettings;
- uint8_t PhaseCal;
-
- if(Status == VL53L0X_ERROR_NONE)
- {
- printf ("Call of VL53L0X_StaticInit\n");
- Status = VL53L0X_StaticInit(pMyDevice); // Device Initialization
- // StaticInit will set interrupt by default
- print_pal_error(Status);
- }
-
- if(Status == VL53L0X_ERROR_NONE)
- {
- printf ("Call of VL53L0X_PerformRefCalibration\n");
- Status = VL53L0X_PerformRefCalibration(pMyDevice,
- &VhvSettings, &PhaseCal); // Device Initialization
- print_pal_error(Status);
- }
-
- if(Status == VL53L0X_ERROR_NONE)
- {
- printf ("Call of VL53L0X_PerformRefSpadManagement\n");
- Status = VL53L0X_PerformRefSpadManagement(pMyDevice,
- &refSpadCount, &isApertureSpads); // Device Initialization
- print_pal_error(Status);
- }
-
- if(Status == VL53L0X_ERROR_NONE)
- {
-
- printf ("Call of VL53L0X_SetDeviceMode\n");
- Status = VL53L0X_SetDeviceMode(pMyDevice, VL53L0X_DEVICEMODE_CONTINUOUS_RANGING); // Setup in single ranging mode
- print_pal_error(Status);
- }
-
- if(Status == VL53L0X_ERROR_NONE)
- {
- printf ("Call of VL53L0X_StartMeasurement\n");
- Status = VL53L0X_StartMeasurement(pMyDevice);
- print_pal_error(Status);
- }
-
- if(Status == VL53L0X_ERROR_NONE)
- {
- uint32_t measurement;
- uint32_t no_of_measurements = 6000;
-
- uint16_t* pResults = (uint16_t*)malloc(sizeof(uint16_t) * no_of_measurements);
-
- for(measurement=0; measurement<no_of_measurements; measurement++)
- {
-
- Status = WaitMeasurementDataReady(pMyDevice);
-
- if(Status == VL53L0X_ERROR_NONE)
- {
- Status = VL53L0X_GetRangingMeasurementData(pMyDevice, pRangingMeasurementData);
-
- *(pResults + measurement) = pRangingMeasurementData->RangeMilliMeter;
- printf("In loop measurement %lu: %d\n", measurement, pRangingMeasurementData->RangeMilliMeter);
- wait(1);
- led=!led;
- // Clear the interrupt
- VL53L0X_ClearInterruptMask(pMyDevice, VL53L0X_REG_SYSTEM_INTERRUPT_GPIO_NEW_SAMPLE_READY);
- VL53L0X_PollingDelay(pMyDevice);
- } else {
- break;
- }
- }
-
- if(Status == VL53L0X_ERROR_NONE)
- {
- for(measurement=0; measurement<no_of_measurements; measurement++)
- {
- printf("measurement %lu: %d\n", measurement, *(pResults + measurement));
- }
- }
-
- free(pResults);
- }
-
-
- if(Status == VL53L0X_ERROR_NONE)
- {
- printf ("Call of VL53L0X_StopMeasurement\n");
- Status = VL53L0X_StopMeasurement(pMyDevice);
- }
-
- if(Status == VL53L0X_ERROR_NONE)
- {
- printf ("Wait Stop to be competed\n");
- Status = WaitStopCompleted(pMyDevice);
- }
-
- if(Status == VL53L0X_ERROR_NONE)
- Status = VL53L0X_ClearInterruptMask(pMyDevice,
- VL53L0X_REG_SYSTEM_INTERRUPT_GPIO_NEW_SAMPLE_READY);
- while (true)
- if (pc.readable())
- pc.putc(pc.getc());
+ VL53L0X_StopMeasurement(pMyDevice);
+ WaitStopCompleted(pMyDevice);
+ VL53L0X_ClearInterruptMask(pMyDevice,VL53L0X_REG_SYSTEM_INTERRUPT_GPIO_NEW_SAMPLE_READY);
+
}