X-Git-Url: https://git.toastfreeware.priv.at/chrisu/seepark.git/blobdiff_plain/6acfad15e0f6ec9f864a1cf53680f3500f42ff21..5ded0a74693c3e1f738adc9338a09fd53a1bcab0:/web/seepark_web.py diff --git a/web/seepark_web.py b/web/seepark_web.py index a6d3930..edde374 100644 --- a/web/seepark_web.py +++ b/web/seepark_web.py @@ -1,4 +1,3 @@ -from random import uniform import datetime import time import configparser @@ -75,7 +74,7 @@ def select_sensordata(sensor_id, sensor_type, begin, end, mode): query = query.filter(Sensors.timestamp >= begin) if end is not None: query = query.filter(Sensors.timestamp <= end) - if mode == 'consolidated' and begin is None and end is None: + if mode == 'consolidated' and begin is not None and end is not None: # copied from munin/master/_bin/munin-cgi-graph.in # interval in seconds for data points resolutions = dict( @@ -86,16 +85,16 @@ def select_sensordata(sensor_id, sensor_type, begin, end, mode): ) duration = (end - begin).total_seconds() day = 60 * 60 * 24 - if duration < day: + if duration <= day: resolution = resolutions['day'] - elif duration < 7 * day: + elif duration <= 7 * day: resolution = resolutions['week'] - elif duration < 31 * day: + elif duration <= 31 * day: resolution = resolutions['month'] else: resolution = resolutions['year'] # TODO: filter out samples from 'result' - # something like + # something like # select to_seconds(datetime) DIV (60*60*24) as interval_id, min(datetime), max(datetime), min(temp), avg(temp), max(temp), count(temp) from openweathermap group by interval_id order by interval_id; return query.all() @@ -106,7 +105,7 @@ def select_openweatherdata(cityid, begin, end, mode): query = query.filter(OpenWeatherMap.datetime >= begin) if end is not None: query = query.filter(OpenWeatherMap.datetime <= end) - if mode == 'consolidated' and begin is None and end is None: + if mode == 'consolidated' and begin is not None and end is not None: # copied from munin/master/_bin/munin-cgi-graph.in # interval in seconds for data points resolutions = dict( @@ -131,12 +130,12 @@ def select_openweatherdata(cityid, begin, end, mode): return query.all() -def convert_to_c3(result): +def convert_to_c3(result, id, field_x, field_y): c3result = defaultdict(list) for row in result: - c3result[row.sensor_id].append(row.value) - dt = row.timestamp.strftime('%Y-%m-%d %H:%M:%S') - c3result[row.sensor_id + '_x'].append(dt) + c3result[getattr(row, id)].append(getattr(row, field_y)) + dt = getattr(row, field_x).strftime('%Y-%m-%d %H:%M:%S') + c3result[str(getattr(row, id)) + '_x'].append(dt) return c3result @@ -163,7 +162,7 @@ def sensordata(sensor_id=None, sensor_type=None): result = select_sensordata(sensor_id, sensor_type, begin, end, mode) if format == 'c3': - return convert_to_c3(result) + return convert_to_c3(result, 'sensor_id', 'timestamp', 'value') return result @@ -176,7 +175,7 @@ def openweathermapdata(cityid): result = select_openweatherdata(cityid, begin, end, mode) if format == 'c3': - return convert_to_c3(result) + return convert_to_c3(result, 'cityid', 'datetime', 'temp') return result @@ -239,36 +238,6 @@ def openweathermap_city(version, cityid): return jsonify(result) -@app.route('/data/', defaults={'timespan': 1}) -@app.route("/data/", methods=['GET']) -def data(timespan): - granularity = 5 * timespan # (every) minute(s) per day - samples = 60/granularity * 24 * timespan # per hour over whole timespan - s4m = [] - s4m_x = [] - s5m = [] - s5m_x = [] - end = time.time() - start = end - samples * granularity * 60 - - for i in range(int(samples)): - s4m.append(uniform(-10,30)) - s5m.append(uniform(-10,30)) - s4mt = uniform(start, end) - s5mt = uniform(start, end) - s4m_x.append(time.strftime('%Y-%m-%d %H:%M:%S', time.localtime(s4mt))) - s5m_x.append(time.strftime('%Y-%m-%d %H:%M:%S', time.localtime(s5mt))) - - data = { - '0316a2193bff': s4m, - '0316a2193bff_x': s4m_x, - '0316a21383ff': s5m, - '0316a21383ff_x': s5m_x, - } - - return jsonify(data) - - @app.route("/") def index(): airvalue, airtime = currentairtemperature(cityid)