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mirror of https://github.com/kidoman/embd synced 2024-10-31 23:38:44 +01:00
embd/sensor/us020/us020.go
2014-03-03 00:51:23 +05:30

144 lines
2.6 KiB
Go

// Package us020 allows interfacing with the US020 ultrasonic range finder.
package us020
import (
"log"
"sync"
"time"
"github.com/kidoman/embd"
)
const (
pulseDelay = 30000 * time.Nanosecond
defaultTemp = 25
)
type Thermometer interface {
Temperature() (float64, error)
}
type nullThermometer struct {
}
func (*nullThermometer) Temperature() (float64, error) {
return defaultTemp, nil
}
var NullThermometer = &nullThermometer{}
// US020 represents a US020 ultrasonic range finder.
type US020 struct {
EchoPin, TriggerPin embd.DigitalPin
Thermometer Thermometer
speedSound float64
initialized bool
mu sync.RWMutex
Debug bool
}
// New creates a new US020 interface. The bus variable controls
// the I2C bus used to communicate with the device.
func New(echoPin, triggerPin embd.DigitalPin, thermometer Thermometer) *US020 {
return &US020{EchoPin: echoPin, TriggerPin: triggerPin, Thermometer: thermometer}
}
func (d *US020) setup() (err error) {
d.mu.RLock()
if d.initialized {
d.mu.RUnlock()
return
}
d.mu.RUnlock()
d.mu.Lock()
defer d.mu.Unlock()
d.TriggerPin.SetDirection(embd.Out)
d.EchoPin.SetDirection(embd.In)
if d.Thermometer == nil {
d.Thermometer = NullThermometer
}
if temp, err := d.Thermometer.Temperature(); err == nil {
d.speedSound = 331.3 + 0.606*temp
if d.Debug {
log.Printf("read a temperature of %v, so speed of sound = %v", temp, d.speedSound)
}
} else {
d.speedSound = 340
}
d.initialized = true
return
}
// Distance computes the distance of the bot from the closest obstruction.
func (d *US020) Distance() (distance float64, err error) {
if err = d.setup(); err != nil {
return
}
if d.Debug {
log.Print("us020: trigerring pulse")
}
// Generate a TRIGGER pulse
d.TriggerPin.Write(embd.High)
time.Sleep(pulseDelay)
d.TriggerPin.Write(embd.Low)
if d.Debug {
log.Print("us020: waiting for echo to go high")
}
// Wait until ECHO goes high
for {
v, err := d.EchoPin.Read()
if err != nil {
return 0, err
}
if v != embd.Low {
break
}
}
startTime := time.Now() // Record time when ECHO goes high
if d.Debug {
log.Print("us020: waiting for echo to go low")
}
// Wait until ECHO goes low
for {
v, err := d.EchoPin.Read()
if err != nil {
return 0, err
}
if v != embd.High {
break
}
}
duration := time.Since(startTime) // Calculate time lapsed for ECHO to transition from high to low
// Calculate the distance based on the time computed
distance = float64(duration.Nanoseconds()) / 10000000 * (d.speedSound / 2)
return
}
// Close.
func (d *US020) Close() {
d.EchoPin.SetDirection(embd.Out)
}