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Calculate how much the furnace is running #30

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mattbk merged 3 commits from threshold into master 2017-11-24 22:54:26 -06:00
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2 changed files with 120 additions and 99 deletions
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pi_temp.py
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@ -58,123 +58,142 @@ app.debug = True # Make this False if you are no longer debugging
@app.route("/") @app.route("/")
def lab_temp(): def lab_temp():
import sys import sys
import Adafruit_DHT import Adafruit_DHT
humidity, temperature = Adafruit_DHT.read_retry(Adafruit_DHT.AM2302, 17) humidity, temperature = Adafruit_DHT.read_retry(Adafruit_DHT.AM2302, 17)
temperature = temperature * 9/5.0 + 32 temperature = temperature * 9/5.0 + 32
if humidity is not None and temperature is not None: if humidity is not None and temperature is not None:
return render_template("live.html",temp=temperature,hum=humidity) return render_template("live.html",temp=temperature,hum=humidity)
else: else:
return render_template("no_sensor.html") return render_template("no_sensor.html")
@app.route("/history", methods=['GET']) #Add date limits in the URL #Arguments: from=2015-03-04&to=2015-03-05 @app.route("/history", methods=['GET']) #Add date limits in the URL #Arguments: from=2015-03-04&to=2015-03-05
def history(): def history():
temperatures, humidities, timezone, from_date_str, to_date_str = get_records() temperatures, humidities, timezone, from_date_str, to_date_str = get_records()
# Create new record tables so that datetimes are adjusted back to the user browser's time zone. # Create new record tables so that datetimes are adjusted back to the user browser's time zone.
time_series_adjusted_temperatures = [] time_series_adjusted_temperatures = []
time_series_adjusted_humidities = [] time_series_adjusted_humidities = []
time_series_temperature_values = [] time_series_temperature_values = []
time_series_humidity_values = [] time_series_humidity_values = []
for record in temperatures: for record in temperatures:
local_timedate_series = arrow.get(record[0], "YYYY-MM-DD HH:mm") local_timedate_series = arrow.get(record[0], "YYYY-MM-DD HH:mm")
time_series_adjusted_temperatures.append(local_timedate_series.format('YYYY-MM-DD HH:mm')) time_series_adjusted_temperatures.append(local_timedate_series.format('YYYY-MM-DD HH:mm'))
time_series_temperature_values.append(round(record[2],2)) time_series_temperature_values.append(round(record[2],2))
for record in humidities: for record in humidities:
local_timedate_series = arrow.get(record[0], "YYYY-MM-DD HH:mm") local_timedate_series = arrow.get(record[0], "YYYY-MM-DD HH:mm")
time_series_adjusted_humidities.append(local_timedate_series.format('YYYY-MM-DD HH:mm')) #Best to pass datetime in text time_series_adjusted_humidities.append(local_timedate_series.format('YYYY-MM-DD HH:mm')) #Best to pass datetime in text
#so that Plotly respects it #so that Plotly respects it
time_series_humidity_values.append(round(record[2],2)) time_series_humidity_values.append(round(record[2],2))
temp = Scatter( temp = Scatter(
x=time_series_adjusted_temperatures, x=time_series_adjusted_temperatures,
y=time_series_temperature_values, y=time_series_temperature_values,
name='Temperature', name='Temperature',
mode='lines', mode='lines',
line=Line(color='red') line=Line(color='red')
) )
hum = Scatter( hum = Scatter(
x=time_series_adjusted_humidities, x=time_series_adjusted_humidities,
y=time_series_humidity_values, y=time_series_humidity_values,
name='Humidity', name='Humidity',
line=Line(color='aqua') line=Line(color='aqua')
) )
data = Data([temp, hum]) data = Data([temp, hum])
layout = Layout( layout = Layout(
title="Temperature and Humidity", title="Temperature and Humidity",
xaxis=XAxis( xaxis=XAxis(
type='date', type='date',
autorange=True autorange=True
), ),
yaxis=YAxis( yaxis=YAxis(
title='Fahrenheit / Percent', title='Fahrenheit / Percent',
type='linear', type='linear',
autorange=True autorange=True
), ),
) )
fig = Figure(data=data, layout=layout) fig = Figure(data=data, layout=layout)
graphJSON = json.dumps(fig, cls=plotly.utils.PlotlyJSONEncoder) graphJSON = json.dumps(fig, cls=plotly.utils.PlotlyJSONEncoder)
return render_template("history.html", timezone = timezone,
graphJSON = graphJSON, x = time_series_temperature_values
) result = longest_streak(x)
return render_template("history.html", timezone = timezone,
graphJSON = graphJSON,
result = result,
)
def longest_streak(grades):
if len(grades) < 2:
return len(grades)
else:
start, streaks = -1, []
for idx, (x, y) in enumerate(zip(grades, grades[1:])):
if x > y:
streaks.append(idx - start)
start = idx
else:
streaks.append(idx - start + 1)
long_streaks = [x for x in streaks if x > 3]
return long_streaks
def get_records(): def get_records():
from_date_str = request.args.get('from',time.strftime("%Y-%m-%d 00:00")) #Get the from date value from the URL from_date_str = request.args.get('from',time.strftime("%Y-%m-%d 00:00")) #Get the from date value from the URL
to_date_str = request.args.get('to',time.strftime("%Y-%m-%d %H:%M")) #Get the to date value from the URL to_date_str = request.args.get('to',time.strftime("%Y-%m-%d %H:%M")) #Get the to date value from the URL
timezone = request.args.get('timezone','Etc/UTC'); timezone = request.args.get('timezone','Etc/UTC');
range_h_form = request.args.get('range_h',''); #This will return a string, if field range_h exists in the request range_h_form = request.args.get('range_h',''); #This will return a string, if field range_h exists in the request
range_h_int = "nan" #initialise this variable with not a number range_h_int = "nan" #initialise this variable with not a number
print "REQUEST:" print "REQUEST:"
print request.args print request.args
try: try:
range_h_int = int(range_h_form) range_h_int = int(range_h_form)
except: except:
print "range_h_form not a number" print "range_h_form not a number"
print "Received from browser: %s, %s, %s, %s" % (from_date_str, to_date_str, timezone, range_h_int) print "Received from browser: %s, %s, %s, %s" % (from_date_str, to_date_str, timezone, range_h_int)
if not validate_date(from_date_str): # Validate date before sending it to the DB if not validate_date(from_date_str): # Validate date before sending it to the DB
from_date_str = time.strftime("%Y-%m-%d 00:00") from_date_str = time.strftime("%Y-%m-%d 00:00")
if not validate_date(to_date_str): if not validate_date(to_date_str):
to_date_str = time.strftime("%Y-%m-%d %H:%M") # Validate date before sending it to the DB to_date_str = time.strftime("%Y-%m-%d %H:%M") # Validate date before sending it to the DB
print '2. From: %s, to: %s, timezone: %s' % (from_date_str,to_date_str,timezone) print '2. From: %s, to: %s, timezone: %s' % (from_date_str,to_date_str,timezone)
# Create datetime object so that we can convert to UTC from the browser's local time # Create datetime object so that we can convert to UTC from the browser's local time
from_date_obj = datetime.datetime.strptime(from_date_str,'%Y-%m-%d %H:%M') from_date_obj = datetime.datetime.strptime(from_date_str,'%Y-%m-%d %H:%M')
to_date_obj = datetime.datetime.strptime(to_date_str,'%Y-%m-%d %H:%M') to_date_obj = datetime.datetime.strptime(to_date_str,'%Y-%m-%d %H:%M')
# If range_h is defined, we don't need the from and to times # If range_h is defined, we don't need the from and to times
if isinstance(range_h_int,int): if isinstance(range_h_int,int):
arrow_time_from = arrow.utcnow().replace(hours=-range_h_int) arrow_time_from = arrow.utcnow().replace(hours=-range_h_int)
arrow_time_to = arrow.utcnow() arrow_time_to = arrow.utcnow()
from_date_utc = arrow_time_from.strftime("%Y-%m-%d %H:%M") from_date_utc = arrow_time_from.strftime("%Y-%m-%d %H:%M")
to_date_utc = arrow_time_to.strftime("%Y-%m-%d %H:%M") to_date_utc = arrow_time_to.strftime("%Y-%m-%d %H:%M")
from_date_str = arrow_time_from.to(timezone).strftime("%Y-%m-%d %H:%M") from_date_str = arrow_time_from.to(timezone).strftime("%Y-%m-%d %H:%M")
to_date_str = arrow_time_to.to(timezone).strftime("%Y-%m-%d %H:%M") to_date_str = arrow_time_to.to(timezone).strftime("%Y-%m-%d %H:%M")
else: else:
#Convert datetimes to UTC so we can retrieve the appropriate records from the database #Convert datetimes to UTC so we can retrieve the appropriate records from the database
from_date_utc = arrow.get(from_date_obj, timezone).to('Etc/UTC').strftime("%Y-%m-%d %H:%M") from_date_utc = arrow.get(from_date_obj, timezone).to('Etc/UTC').strftime("%Y-%m-%d %H:%M")
to_date_utc = arrow.get(to_date_obj, timezone).to('Etc/UTC').strftime("%Y-%m-%d %H:%M") to_date_utc = arrow.get(to_date_obj, timezone).to('Etc/UTC').strftime("%Y-%m-%d %H:%M")
conn = sqlite3.connect('pi_temp.db') conn = sqlite3.connect('pi_temp.db')
curs = conn.cursor() curs = conn.cursor()
curs.execute("SELECT * FROM temperatures WHERE rDateTime BETWEEN ? AND ?", (from_date_utc.format('YYYY-MM-DD HH:mm'), to_date_utc.format('YYYY-MM-DD HH:mm'))) curs.execute("SELECT * FROM temperatures WHERE rDateTime BETWEEN ? AND ?", (from_date_utc.format('YYYY-MM-DD HH:mm'), to_date_utc.format('YYYY-MM-DD HH:mm')))
temperatures = curs.fetchall() temperatures = curs.fetchall()
curs.execute("SELECT * FROM humidities WHERE rDateTime BETWEEN ? AND ?", (from_date_utc.format('YYYY-MM-DD HH:mm'), to_date_utc.format('YYYY-MM-DD HH:mm'))) curs.execute("SELECT * FROM humidities WHERE rDateTime BETWEEN ? AND ?", (from_date_utc.format('YYYY-MM-DD HH:mm'), to_date_utc.format('YYYY-MM-DD HH:mm')))
humidities = curs.fetchall() humidities = curs.fetchall()
conn.close() conn.close()
return [temperatures, humidities, timezone, from_date_str, to_date_str] return [temperatures, humidities, timezone, from_date_str, to_date_str]
def validate_date(d): def validate_date(d):
try: try:

2
templates/history.html
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@ -79,6 +79,8 @@
</div> </div>
<div class='row' id='plotly-plot'></div> <div class='row' id='plotly-plot'></div>
{{ result }}
</body> </body>
<footer> <footer>