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app.py
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app.py
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# Dash
import dash
from dash import Dash, callback, html, dcc, dash_table, Input, Output, State, MATCH, ALL, CeleryManager, DiskcacheManager
import dash_bootstrap_components as dbc
import plotly.graph_objects as go
from plotly.subplots import make_subplots
import plotly.express as px
import dash_design_kit as ddk
import colorcet as cc
# pytyony stuff
import os
import sys
# Standard tools and utilities
import pandas as pd
import json
import pprint
import numpy as np
import datetime
import flask
import urllib
# My stuff
from sdig.erddap.info import Info
if os.environ.get("DASH_ENTERPRISE_ENV") == "WORKSPACE":
# For testing...
import diskcache
cache = diskcache.Cache("./cache")
background_callback_manager = DiskcacheManager(cache)
else:
# For production...
from celery import Celery
celery_app = Celery(__name__, broker=os.environ['REDIS_URL'], backend=os.environ['REDIS_URL'])
background_callback_manager = CeleryManager(celery_app)
version = 'v1.5.1' # Set range on time axis of profile. Set title.
empty_color = '#999999'
has_data_color = 'black'
seconds_in_day = 24 * 60 * 60
month_step = 60 * 60 * 24 * 30.25
d_format = "%Y-%m-%d"
max_time_series_points = 88000
max_profile_points = 60000 # At most plot max_profile_points point in a profile plot
height_of_row = 450
height_of_profile_row = 500
profile_legend_gap = height_of_profile_row * .88
legend_gap = height_of_row * .88
line_rgb = 'rgba(.04,.04,.04,.2)'
plot_bg = 'rgba(1.0, 1.0, 1.0 ,1.0)'
discover_error = '''
You must configure a DISCOVERY_JSON env variable pointing to the JSON file that defines the which collections
of variables are to be in the discovery radio button list.
'''
graph_config = {'displaylogo': False, 'modeBarButtonsToRemove': ['select2d', 'lasso2d'],
'doubleClick': 'reset+autosize',
'toImageButtonOptions': {'height': None, 'width': None, },
}
# platform_file = os.getenv('PLATFORM_JSON')
platform_file = 'lts_sites.json'
if platform_file is None:
platform_file = os.getenv('PLATFORMS_JSON')
platform_json = {}
if platform_file is not None:
with open(platform_file) as platform_stream:
platform_json = json.load(platform_stream)
variables_by_did = {}
locations_by_did = {}
units_by_did = {}
all_start = None
all_end = None
all_start_seconds = 999999999999999
all_end_seconds = -999999999999999
for dataset in platform_json['config']['datasets']:
url = dataset['url']
locations_url = dataset['locations']
did = url[url.rindex('/') + 1:]
dataset['id'] = did
info = Info(url)
start_date, end_date, start_date_seconds, end_date_seconds = info.get_times()
dsg_type = info.get_dsg_type()
if start_date_seconds < all_start_seconds:
all_start_seconds = start_date_seconds
all_start = start_date
if end_date_seconds > all_end_seconds:
all_end_seconds = end_date_seconds
all_end = end_date
title = info.get_title()
dataset['title'] = title
variables_list, long_names, units, standard_names, d_types = info.get_variables()
units_by_did[did] = units
variables_by_did[did] = variables_list
mdf = pd.read_csv(locations_url, skiprows=[1],
dtype={'wmo_platform_code': str, 'site_code': str, 'latitude': np.float64, 'longitude': np.float64})
if mdf.shape[0] > 1 and mdf.site_code.nunique() <= 1:
platform = mdf['wmo_platform_code'].unique()
site = mdf['site_code'].unique()
adf = mdf.mean(axis=0, numeric_only=True)
mdf = pd.DataFrame(columns=['latitude', 'longitude', 'site_code', 'wmo_platform_code'], index=[0], )
mdf['latitude'] = adf.loc['latitude']
mdf['longitude'] = adf.loc['longitude']
mdf['site_code'] = site
mdf['wmo_platform_code'] = platform
mdf['did'] = did
locations_by_did[did] = json.dumps(mdf.to_json())
ESRI_API_KEY = os.environ.get('ESRI_API_KEY')
discovery_file = 'lts_discovery.json'
if discovery_file is None:
discovery_file = os.getenv('DISCOVERY_FILE')
if discovery_file is not None:
with open(discovery_file) as discovery_stream:
discover_json = json.load(discovery_stream)
else:
print('No config information found')
sys.exit(-1)
radio_options = []
for key in discover_json['discovery']:
q = discover_json['discovery'][key]
radio_options.append({'label': q['question'], 'value': key})
radio_value = None
if len(radio_options) >= 1:
radio_value = radio_options[0]['value']
time_marks = Info.get_time_marks(all_start_seconds, all_end_seconds)
app = dash.Dash(__name__,
external_stylesheets=[dbc.themes.BOOTSTRAP, dbc.icons.BOOTSTRAP],
background_callback_manager=background_callback_manager
)
app._favicon = 'favicon.ico'
app.title = 'LTS'
server = app.server
app.layout = \
html.Div(
style={'padding-left': '15px', 'padding-right': '25px'},
children=[
dcc.Location(id='location', refresh=False),
dcc.Store(id='active-platforms'),
dcc.Store(id='inactive-platforms'),
dcc.Store(id='selected-platform'),
dcc.Store(id='map-info'),
dcc.Store(id='initial-time-start'), # time from initial load query string
dcc.Store(id='initial-time-end'), # time from initial load query string
dcc.Store(id='initial-site'), # A site coming in on the query string
html.Div(id='data-div', style={'display': 'none'}),
dbc.Navbar(
[
# Use row and col to control vertical alignment of logo / brand
dbc.Row(
style={'width': '100%'},
align="center",
children=[
dbc.Col(width=2, children=[
html.Img(src='assets/os_logo.gif',
style={'height': '97px', 'width': '150px'})
]),
dbc.Col(width=3, style={'display': 'flex', 'align-items': 'left'}, children=[
html.A(
dbc.NavbarBrand(
'Long time series ', className="ml-2",
style={
'padding-top': '160px',
'font-size': '2.5em',
'font-weight': 'bold'
}
),
href='https://www.pmel.noaa.gov/gtmba/oceansites',
style={'text-decoration': 'none'}
)]
),
dbc.Col(width=4), # empty space, replace with message if needed
# dbc.Col(width=4, children=[
# html.Div(children=[
# html.Div('Parts of the US government are closed. This site will not be updated; however, NOAA websites and social media channels necessary to protect lives and property will be maintained. See ', style={'display':'inline'}),
# html.A('www.weather.gov', href='https://www.weather.gov', style={'display':'inline'}),
# html.Div(' for critical weather information. To learn more, see ', style={'display': 'inline'}),
# html.A('www.commerce.gov', href='https://www.commerce.gov', style={'display':'inline'}),
# html.Div('.', style={'display':'inline'}),
# ], style={'display':'inline'})
# ]),
dbc.Col(width=3, children=[
dcc.Loading(id='nav-loader', children=[
html.Div(id='loading-div'),
html.Div(children=[
dbc.Button("Download Data", id='download-button', className="me-1"),
dbc.Modal(children=
[
dbc.ModalHeader(dbc.ModalTitle("Download Data")),
dbc.ModalBody(id='download-body'),
dbc.ModalFooter(
dbc.Button(
"Close", id="close-download", className="ms-auto", n_clicks=0
)
),
],
id="download-dialog",
is_open=False,
)
]),
])
])
]
)
]
),
dbc.Row(children=[
dbc.Col(width=3, children=[
dbc.Card(children=[
dbc.CardHeader(children=["Discover:"]),
dbc.CardBody(children=[
dbc.RadioItems(
options=radio_options,
value=radio_value,
id="radio-items",
),
])
]),
dbc.Card(children=[
dbc.CardHeader(children=['In the selected time range:']),
dbc.Row(children=[
dbc.Col(width=6, children=[
dbc.Card(children=[
dbc.CardHeader(children=['Start Date']),
]),
dbc.Input(id='start-date', debounce=True, value=all_start)
]),
dbc.Col(width=6, children=[
dbc.Card(children=[
dbc.CardHeader(children=['End Date']),
]),
dbc.Input(id='end-date', debounce=True, value=all_end)
])
]),
dbc.Row(children=[
dbc.Col(width=12, children=[
html.Div(style={'padding-right': '40px', 'padding-left': '40px',
'padding-top': '20px', 'padding-bottom': '45px'}, children=[
dcc.RangeSlider(id='time-range-slider',
value=[all_start_seconds, all_end_seconds],
min=all_start_seconds,
max=all_end_seconds,
step=month_step,
marks=time_marks,
updatemode='mouseup',
allowCross=False)
])
])
]),
]),
]),
dbc.Col(width=9, children=[
dbc.Card(children=[
dbc.CardHeader([
'Select the type of data and date range. Black dots have data, gray dots do not.',
dcc.Loading(html.Div(id='map-loading'))
]),
dbc.CardBody(
ddk.Graph(id='location-map', config=graph_config),
)
])
])
]),
dbc.Row(id='plot-row', style={'display': 'none'}, children=[
dbc.Card(id='plot-card', children=[
dbc.CardHeader(id='plot-card-title'),
dbc.CardBody(id='plot-card-body', children=[
dcc.Loading(
ddk.Graph(id='plot-graph', config=graph_config)
)
])
]),
dbc.Card(id='profile-card', children=[
dbc.CardHeader(id='profile-card-title'),
dbc.CardBody(id='profile-card-body', children=[
dcc.Loading(
ddk.Graph(id='profile-graph', config=graph_config)
)
])
])
]),
dbc.Row(style={'margin-bottom': '10px'}, children=[
dbc.Col(width=12, children=[
dbc.Card(children=[
dbc.Row(children=[
dbc.Col(width=1, children=[
html.Img(src='https://www.pmel.noaa.gov/sites/default/files/PMEL-meatball-logo-sm.png',
height=100,
width=100),
]),
dbc.Col(width=10, children=[
html.Div(children=[
dcc.Link('National Oceanic and Atmospheric Administration',
href='https://www.noaa.gov/'),
]),
html.Div(children=[
dcc.Link('Pacific Marine Environmental Laboratory',
href='https://www.pmel.noaa.gov/'),
]),
html.Div(children=[
dcc.Link('[email protected]', href='mailto:[email protected]')
]),
html.Div(children=[
dcc.Link('DOC |', href='https://www.commerce.gov/'),
dcc.Link(' NOAA |', href='https://www.noaa.gov/'),
dcc.Link(' OAR |', href='https://www.research.noaa.gov/'),
dcc.Link(' PMEL |', href='https://www.pmel.noaa.gov/'),
dcc.Link(' Privacy Policy |', href='https://www.noaa.gov/disclaimer'),
dcc.Link(' Disclaimer |', href='https://www.noaa.gov/disclaimer'),
dcc.Link(' Accessibility', href='https://www.pmel.noaa.gov/accessibility')
])
]),
dbc.Col(width=1, children=[
html.Div(style={'font-size': '1.0em', 'position': 'absolute', 'bottom': '0'},
children=[version])
])
])
])
])
])
]
)
def get_blank(platform, b_start_date, b_end_date):
message = 'No data available at ' + platform + ' for ' + b_start_date + ' to ' + b_end_date
blank_graph = go.Figure(go.Scatter(x=[0, 1], y=[0, 1], showlegend=False))
blank_graph.add_trace(go.Scatter(x=[0, 1], y=[0, 1], showlegend=False))
blank_graph.update_traces(visible=False)
blank_graph.update_layout(
xaxis={"visible": False},
yaxis={"visible": False},
title=message,
plot_bgcolor=plot_bg,
annotations=[
{
"text": message,
"xref": "paper",
"yref": "paper",
"showarrow": False,
"font": {
"size": 14
}
},
]
)
return blank_graph
def make_gaps(pdf, fre):
if pdf.shape[0] > 3:
# This magic inserts missing values between rows that are more than two deltas apart.
# Make time the index to the data
pdf2 = pdf.set_index('time')
pdf2 = pdf2[~pdf2.index.duplicated()]
# make a index at the expected delta
fill_dates = pd.date_range(pdf['time'].iloc[0], pdf['time'].iloc[-1], freq=fre)
# sprinkle the actual values out along the new time axis, by combining the regular
# intervals index and the data index
all_dates = fill_dates.append(pdf2.index)
all_dates = all_dates[~all_dates.duplicated()]
fill_sort = sorted(all_dates)
# reindex the data which causes NaNs everywhere in the regular index that don't
# exactly match the data, with the data in between the NaNs
pdf3 = pdf2.reindex(fill_sort)
# remove the NaN rows that are by themselves because there is data near enough
mask1 = ~pdf3['site_code'].notna() & ~pdf3['site_code'].shift().notna()
mask2 = pdf3['site_code'].notna()
pdf4 = pdf3[mask1 | mask2]
# Reindex to 0 ... N
pdf = pdf4.reset_index()
return pdf
@app.callback(
[
Output('initial-time-start', 'data'),
Output('initial-time-end', 'data'),
Output('radio-items', 'value'),
Output('initial-site', 'data')
],
[
Input('data-div', 'n_clicks')
],
[
State('location', 'search')
]
)
def process_query(aclick, qstring):
qurl = flask.request.referrer
parts = urllib.parse.urlparse(qurl)
params = urllib.parse.parse_qs(parts.query)
# get defaults from initial load
initial_start_time = all_start
initial_end_time = all_end
dq = ''
if 'start_date' in params:
initial_start_time = params['start_date'][0]
if 'end_date' in params:
initial_end_time = params['end_date'][0]
if 'q' in params:
dq = params['q'][0]
else:
dq = radio_value
initial_site_json = {}
if 'site_code' in params and 'lat' in params and 'lon' in params:
initial_site_code = params['site_code'][0]
initial_lat = params['lat'][0]
initial_lon = params['lon'][0]
initial_site_json = {'site_code': initial_site_code, 'lat': initial_lat, 'lon': initial_lon}
return [initial_start_time, initial_end_time, dq, json.dumps(initial_site_json)]
@app.callback(
Output("download-dialog", "is_open"),
[Input("download-button", "n_clicks"), Input("close-download", "n_clicks")],
[State("download-dialog", "is_open")],
)
def toggle_modal(n1, n2, is_open):
if n1 or n2:
return not is_open
return is_open
@app.callback([
Output('map-info', 'data')
], [
Input('location-map', 'relayoutData')
]
)
def record_map_change(relay_data):
center = {'lon': 0.0, 'lat': 0.0}
zoom = 1.4
if relay_data is not None:
if 'mapbox.center' in relay_data:
center = relay_data['mapbox.center']
if 'mapbox.zoom' in relay_data:
zoom = relay_data['mapbox.zoom']
map_info = {'center': center, 'zoom': zoom}
return [json.dumps(map_info)]
@app.callback(
[
Output('active-platforms', 'data'),
Output('inactive-platforms', 'data'),
Output('map-loading', 'children')
],
[
Input('start-date', 'value'),
Input('end-date', 'value'),
Input('radio-items', 'value'),
], prevent_initial_call=True
)
def update_platform_state(in_start_date, in_end_date, in_data_question):
print('update platform state')
time_constraint = ''
all_with_data = None
all_without_data = None
vars_to_get = []
# check to see which platforms have data for the current variables
if in_start_date is not None and in_end_date is not None:
n_start_obj = datetime.datetime.strptime(in_start_date, d_format)
n_start_obj.replace(day=1, hour=0)
time_constraint = time_constraint + '&time>=' + n_start_obj.isoformat()
n_end_obj = datetime.datetime.strptime(in_end_date, d_format)
n_end_obj.replace(day=1, hour=0)
time_constraint = time_constraint + '&time<=' + n_end_obj.isoformat()
if n_start_obj.year != n_end_obj.year:
count_by = '1year'
elif n_start_obj.year == n_end_obj.year and n_start_obj.month != n_end_obj.month:
count_by = '1month'
else:
count_by = '1day'
if in_data_question is not None and len(in_data_question) > 0:
for qin in discover_json['discovery']:
if qin == in_data_question:
search_params = discover_json['discovery'][qin]['search']
for search in search_params:
vars_to_get = search['short_names'].copy()
vars_to_get.append('time')
vars_to_get.append('site_code')
short_names = ','.join(vars_to_get)
# join_type == "or" then sum of short name columns > 0.
# join_type == "and" then s1 > 0 && s2 > 0 ...
join_type = search['join']
for dataset_to_check in search['datasets']:
cur_did = dataset_to_check[dataset_to_check.rindex('/') + 1:]
locations_to_map = pd.read_json(json.loads(locations_by_did[cur_did]),
dtype={'site_code': str,
'latitude': np.float64,
'longitude': np.float64})
have_url = dataset_to_check + '.csv?' + short_names + urllib.parse.quote(time_constraint, safe='&()=:/')
have = None
try:
print(have_url)
have = pd.read_csv(have_url, skiprows=[1])
except Exception as he:
print(he)
if 'httpError' in type(he).__class__.__name__:
html_response = he.read()
encoding = he.headers.get_content_charset('utf-8')
decoded_html = html_response.decode(encoding)
print(decoded_html)
print('exception getting counts on ' + have_url)
pass
if have is not None:
csum = have.groupby(['site_code']).sum().reset_index()
csum['site_code'] = csum['site_code'].astype(str)
sum_n = None
if join_type == 'or':
csum['has_data'] = csum[search['short_names']].sum(axis=1)
csum = csum.sort_values('site_code')
locations_to_map = locations_to_map.sort_values('site_code')
sum_n = csum.loc[csum['has_data'] > 0]
if join_type == 'and':
chk_vars = search['short_names']
criteria = ''
for vix, v in enumerate(chk_vars):
if vix > 0:
criteria = criteria + ' & '
criteria = criteria + '(csum[\'' + v + '\']' + ' > 0)'
criteria = 'csum[(' + criteria + ')]'
# eval dereferences all the stuff in the string and runs it
sum_n = pd.eval(criteria)
if sum_n is not None and sum_n.shape[0] > 0:
# sum_n is the platforms that have data.
# This merge operation (as explained here:
# https://stackoverflow.com/questions/53645882/pandas-merging-101/53645883#53645883)
# combines the locations data frame with
# the information about which sites have observations to make something
# that can be plotted.
some_data = locations_to_map.merge(sum_n, on='site_code', how='inner')
some_data['platform_color'] = has_data_color
if all_with_data is None:
all_with_data = some_data
else:
all_with_data = pd.concat([all_with_data, some_data])
criteria = locations_to_map.site_code.isin(some_data.site_code) == False
no_data = locations_to_map.loc[criteria].reset_index()
no_data['platform_color'] = empty_color
if all_without_data is None:
all_without_data = no_data
else:
all_without_data = pd.concat([all_without_data, no_data])
else:
locations_to_map['platform_color'] = empty_color
if all_without_data is None:
all_without_data = locations_to_map
else:
all_without_data = pd.concat([all_without_data, locations_to_map])
else:
for map_did in locations_by_did:
locations_to_map = pd.read_json(json.loads(locations_by_did[map_did]),
dtype={'wmo_platform_code': str, 'site_code': str, 'latitude': np.float64,
'longitude': np.float64})
locations_to_map['platform_color'] = empty_color
if all_without_data is None:
all_without_data = locations_to_map
else:
all_without_data = pd.concat([all_without_data, locations_to_map])
locations_with_data = json.dumps(
pd.DataFrame(columns=['latitude', 'longitude', 'site_code', 'platform_color'], index=[0], ).to_json())
locations_without_data = json.dumps(
pd.DataFrame(columns=['latitude', 'longitude', 'site_code', 'platform_color'], index=[0], ).to_json())
if all_with_data is not None:
all_with_data.reset_index(inplace=True, drop=True)
locations_with_data = json.dumps(all_with_data.to_json())
if all_without_data is not None:
all_without_data.reset_index(inplace=True, drop=True)
locations_without_data = json.dumps(all_without_data.to_json())
return [locations_with_data, locations_without_data, '']
@app.callback(
[
Output('location-map', 'figure'),
],
[
Input('active-platforms', 'data'),
Input('inactive-platforms', 'data'),
Input('selected-platform', 'data'),
],
[
State('map-info', 'data')
], prevent_initial_call=True)
def make_location_map(in_active_platforms, in_inactive_platforms, in_selected_platform, in_map):
center = {'lon': 0.0, 'lat': 0.0}
zoom = 1.4
if in_map is not None:
map_inf = json.loads(in_map)
center = map_inf['center']
zoom = map_inf['zoom']
location_map = go.Figure()
selected_plat = None
if in_selected_platform is not None:
selected_plat = json.loads(in_selected_platform)
if in_active_platforms is not None and in_inactive_platforms is not None:
data_for_yes = pd.read_json(json.loads(in_active_platforms))
data_for_no = pd.read_json(json.loads(in_inactive_platforms))
no_trace = None
if data_for_no.shape[0] > 0:
no_trace = go.Scattermapbox(lat=data_for_no['latitude'],
lon=data_for_no['longitude'],
hovertext=data_for_no['site_code'],
hoverinfo='lat+lon+text',
customdata=data_for_no['site_code'],
marker={'color': data_for_no['platform_color'], 'size': 10},
mode='markers')
yes_trace = None
if data_for_yes.shape[0] > 0:
yes_trace = go.Scattermapbox(lat=data_for_yes['latitude'],
lon=data_for_yes['longitude'],
hovertext=data_for_yes['site_code'],
hoverinfo='lat+lon+text',
customdata=data_for_yes['site_code'],
marker={'color': data_for_yes['platform_color'], 'size': 10},
mode='markers')
if no_trace is not None:
location_map.add_trace(no_trace)
if yes_trace is not None:
location_map.add_trace(yes_trace)
if selected_plat is not None and 'lat' in selected_plat and 'lon' in selected_plat and 'site_code' in selected_plat:
yellow_trace = go.Scattermapbox(lat=[selected_plat['lat']],
lon=[selected_plat['lon']],
hovertext=[selected_plat['site_code']],
hoverinfo='lat+lon+text',
customdata=[selected_plat['site_code']],
marker={'color': 'yellow', 'size': 15},
mode='markers')
location_map.add_trace(yellow_trace)
location_map.update_layout(
showlegend=False,
mapbox_style="white-bg",
mapbox_layers=[
{
"below": 'traces',
"sourcetype": "raster",
"sourceattribution": "Powered by Esri",
"source": [
"https://ibasemaps-api.arcgis.com/arcgis/rest/services/Ocean/World_Ocean_Base/MapServer/tile/{z}/{y}/{x}?token=" + ESRI_API_KEY
]
}
],
mapbox_zoom=zoom,
mapbox_center=center,
margin={"r": 0, "t": 0, "l": 0, "b": 0},
legend=dict(
orientation="v",
x=-.01,
),
modebar_orientation='v',
)
return [location_map]
@app.callback(
[
Output('selected-platform', 'data'),
],
[
Input('location-map', 'clickData'),
Input('initial-site', 'data')
], prevent_initial_call=True
)
def update_selected_platform(click, initial_site):
selection = None
ctx = dash.callback_context
trigger_id = ctx.triggered[0]["prop_id"].split(".")[0]
if trigger_id == 'initial-site':
selection = initial_site
else:
if click is not None:
if 'points' in click:
point_dict = click['points'][0]
selected_platform = point_dict['customdata']
selected_lat = point_dict['lat']
selected_lon = point_dict['lon']
selection = json.dumps({'site_code': selected_platform, 'lat': selected_lat, 'lon': selected_lon})
return [selection]
@app.callback(
[
Output('plot-row', 'style'),
Output('plot-card-title', 'children'),
Output('plot-graph', 'figure'),
Output('location', 'search'),
],
[
Input('selected-platform', 'data'),
Input('start-date', 'value'),
Input('end-date', 'value'),
Input('active-platforms', 'data'),
],
[
State('radio-items', 'value'),
State('time-range-slider', 'value')
], prevent_initial_call=True, background=True
)
def plot_timeseries_for_platform(selection_data, plot_start_date, plot_end_date, active_platforms, question_choice,
slider_values):
figure = {}
query = ''
row_style = {'display': 'block'}
plot_title = 'No data found.'
active = None
selected_platform = None
if selection_data is not None:
selected_json = json.loads(selection_data)
if 'site_code' in selected_json:
selected_platform = selected_json['site_code']
else:
raise dash.exceptions.PreventUpdate
else:
raise dash.exceptions.PreventUpdate
if active_platforms is not None:
active = pd.read_json(json.loads(active_platforms))
if active is not None and selected_platform is not None:
plot_time = '&time>=' + plot_start_date + '&time<=' + plot_end_date
to_plot = active.loc[active['site_code'] == selected_platform]
if to_plot.empty:
return [row_style, plot_title, get_blank(selected_platform, plot_start_date, plot_end_date), '']
dids = to_plot['did'].to_list()
current_search = None
for a_search in discover_json['discovery']:
if a_search == question_choice:
current_search = discover_json['discovery'][a_search]
col = dbc.Col(width=12)
col.children = []
p_did = dids[0]
current_dataset = next(
(item for item in platform_json['config']['datasets'] if item['id'] == p_did), None)
p_url = current_dataset['url']
row = dbc.Row()
card = dbc.Card()
card.children = [dbc.CardHeader(current_dataset['title'] + ' at ' + selected_platform)]
row.children = [card]
col.children.append(row)
for search in current_search['search']:
for pd_data_url in search['datasets']:
if p_did in pd_data_url:
plot_title = 'Timeseries of ' + ','.join(search['short_names']) + ' at ' + selected_platform
vlist = search['short_names'].copy()
vlist.append('time')
vlist.append('site_code')
# TODO do we need to find the depth_name for every data set?
vlist.append('depth')
pvars = ','.join(vlist)
sub_title = selected_platform
bottom_title = current_dataset['title']
p_url = p_url + '.csv?' + pvars + urllib.parse.quote(plot_time, safe='&()=:/') + '&site_code=' + urllib.parse.quote('"' + selected_platform + '"', safe='&()=:/')
# p_url = p_url + '&depth<3.5' # use only surface for time series
p_var = search['short_names'][0]
days_in_request = (slider_values[1] - slider_values[0]) / seconds_in_day
factor = int((days_in_request * 24) / max_time_series_points)
print('days=', days_in_request,'maxpoints=', max_time_series_points, 'factor=',factor)
if factor > 0:
sub_sample = '"depth,time/' + str(factor) + 'day"'
p_url = p_url + '&orderByClosest(' + urllib.parse.quote(sub_sample, safe='&()=:/') + ')'
fre = factor * 24
sfre = str(fre) + 'H'
if factor == 1:
end = ' per day)'
else:
end = ' every ' + str(factor) + ' days)'
sub_title = sub_title + ' (timeseries sub-sampled to one observation' + end
else:
sfre = '1H'
print('Making a timeseries plot of: ' + p_url)
read_data = pd.read_csv(p_url, skiprows=[1])
read_depths = read_data['depth'].unique()
read_data = read_data[read_data[p_var].notna()]
read_data = read_data[read_data['time'].notna()]
read_data['site_code'] = read_data['site_code'].astype(str)
read_data.loc[:, 'text_time'] = read_data['time'].astype(str)
read_data.loc[:, 'time'] = pd.to_datetime(read_data['time'])
figure = go.Figure()
plot_units = ''
if p_var in units_by_did[p_did]:
plot_units = '(' + units_by_did[p_did][p_var] + ')'
y_title = p_var + ' ' + plot_units
for idx, gap_depth in enumerate(sorted(read_depths)):
data_at_depth = read_data.loc[read_data['depth']==gap_depth]
data_at_depth = data_at_depth.sort_values('time')
data_nan_gaps = make_gaps(data_at_depth, sfre)
trace = px.line(data_nan_gaps, x='time', y=p_var, hover_data=['time', p_var, 'depth'])
trace.update_traces(showlegend=True, name=str(gap_depth),line=dict(color=cc.b_glasbey_bw_minc_20[idx]))
figure.add_trace(list(trace.select_traces())[0])
figure.update_yaxes(title=y_title)
figure.update_traces(showlegend=True, connectgaps=False)
figure['layout'].update(height=height_of_row, margin=dict(l=80, r=80, b=80, t=80, ))
figure.update_layout(plot_bgcolor=plot_bg, paper_bgcolor="white",
title = {'text': sub_title, 'x':.01, 'font_size': 22, 'xanchor': 'left', 'xref': 'paper'},
legend=dict(orientation="v", yanchor="top", y=1.01, xanchor="right", x=1.08, bgcolor='white', font_size=16))
figure.update_annotations(x=.01, font_size=22, xanchor='left', xref='x domain')
figure.add_annotation(
xref='x domain',
yref='y domain',
xanchor='right',
yanchor='bottom',
x=1.0,
y=-.20,
font_size=22,
text=bottom_title,
showarrow=False,
bgcolor='rgba(255,255,255,.85)',
)
figure.update_xaxes({
'ticklabelmode': 'period',
'showticklabels': True,
'gridcolor': line_rgb,
'zeroline': True,
'zerolinecolor': line_rgb,
'showline': True,
'linewidth': 1,
'linecolor': line_rgb,
'mirror': True,
'tickfont': {'size': 16},
'tickformatstops' : [
dict(dtickrange=[1000, 60000], value="%H:%M:%S\n%d%b%Y"),
dict(dtickrange=[60000, 3600000], value="%H:%M\n%d%b%Y"),
dict(dtickrange=[3600000, 86400000], value="%H:%M\n%d%b%Y"),
dict(dtickrange=[86400000, 604800000], value="%e\n%b %Y"),
dict(dtickrange=[604800000, "M1"], value="%b\n%Y"),
dict(dtickrange=["M1", "M12"], value="%b\n%Y"),
dict(dtickrange=["M12", None], value="%Y")
]
})
figure.update_yaxes({'gridcolor': line_rgb,
'zeroline': True,
'zerolinecolor': line_rgb,
'showline': True,
'linewidth': 1,
'linecolor': line_rgb,
'mirror': True,
'tickfont': {'size': 16},
'titlefont': {'size': 16},
})
query = '?start_date=' + plot_start_date + '&end_date=' + plot_end_date + '&q=' + question_choice
query = query + '&site_code=' + selected_platform + '&lat=' + str(selected_json['lat'])
query = query + '&lon=' + str(selected_json['lon'])
return [row_style, plot_title, figure, query]
@app.callback(
[
Output('profile-card-title', 'children'),
Output('profile-graph', 'figure'),
Output('download-body', 'children'),
Output('loading-div', 'children')
],
[
Input('selected-platform', 'data'),
Input('start-date', 'value'),
Input('end-date', 'value'),
Input('active-platforms', 'data'),
],
[
State('radio-items', 'value'),
State('time-range-slider', 'value'),
], prevent_initial_call=True, background=True
)
def plot_profile_for_platform(selection_data, plot_start_date, plot_end_date, active_platforms, question_choice,
slider_values,):
figure = {}
query = ''
row_style = {'display': 'block'}
plot_title = 'No data found.'
active = None
list_group = html.Div()
list_group.children = []
if selection_data is not None:
selected_json = json.loads(selection_data)
if 'site_code' in selected_json:
selected_platform = selected_json['site_code']
else:
raise dash.exceptions.PreventUpdate
else:
raise dash.exceptions.PreventUpdate
if active_platforms is not None:
active = pd.read_json(json.loads(active_platforms))
if active is not None and selected_platform is not None:
plot_time = '&time>=' + plot_start_date + '&time<=' + plot_end_date
to_plot = active.loc[active['site_code'] == selected_platform]
if to_plot.empty:
return [plot_title, get_blank(selected_platform, plot_start_date, plot_end_date), list_group, '']
dids = to_plot['did'].to_list()
current_search = None
for a_search in discover_json['discovery']:
if a_search == question_choice:
current_search = discover_json['discovery'][a_search]
col = dbc.Col(width=12)
col.children = []
row_h = []
for p_did in dids:
current_dataset = next(
(item for item in platform_json['config']['datasets'] if item['id'] == p_did), None)
p_url = current_dataset['url']
d_name = current_dataset['vertical_axis_name']
row = dbc.Row()
card = dbc.Card()
card.children = [dbc.CardHeader(current_dataset['title'] + ' at ' + selected_platform)]
row.children = [card]
col.children.append(row)
for search in current_search['search']:
link_group = dbc.ListGroup(horizontal=True)
link_group.children = []
for pd_data_url in search['datasets']:
if p_did in pd_data_url:
list_group.children.append(link_group)
plot_title = 'Profile of ' + ','.join(search['short_names']) + ' at ' + selected_platform
row_h.append(1 / len(dids))
vlist = search['short_names'].copy()
vlist.append('time')
vlist.append('site_code')
# TODO do we need to find the depth_name for every data set?
vlist.append(d_name)
pvars = ','.join(vlist)
meta_item = dbc.ListGroupItem(current_dataset['title'] + ' at ' + selected_platform,
href=p_url, target='_blank')
link_group.children.append(meta_item)
sub_title = selected_platform
bottom_title = current_dataset['title']
p_url = p_url + '.csv?' + pvars + plot_time + '&site_code="' + selected_platform + '"'
# make the data URL's at the full resoltion without subsampling
item = dbc.ListGroupItem('.html', href=p_url.replace('.csv', '.htmlTable'), target='_blank')
link_group.children.append(item)
item = dbc.ListGroupItem('.csv', href=p_url.replace('.htmlTable', '.csv'), target='_blank')
link_group.children.append(item)
item = dbc.ListGroupItem('.nc', href=p_url.replace('.csv', '.ncCF'), target='_blank')
link_group.children.append(item)
days_in_request = (slider_values[1] - slider_values[0]) / seconds_in_day
has_data = active.loc[active['site_code'] == selected_platform]['has_data'].values[0]
factor = int(has_data/max_profile_points)
if factor > 1:
p_url = p_url + '&orderByClosest("' + d_name + ',time/' + str(factor) + 'hour")'
end = ' every ' + str(factor) + ' hours)'
sub_title = sub_title + ' (profile sub-sampled to one observation' + end
print('Making a profile plot of: ' + p_url)
read_data = pd.read_csv(p_url, skiprows=[1])
read_data = read_data.sort_values('time')
read_data['site_code'] = read_data['site_code'].astype(str)
read_data.loc[:, 'text_time'] = read_data['time'].astype(str)
read_data.loc[:, 'time'] = pd.to_datetime(read_data['time'])
plot_units = ''
for vidx, p_var in enumerate(search['short_names']):
read_data = read_data[read_data[p_var].notna()]
read_data = read_data[read_data['time'].notna()]
if d_name in units_by_did[p_did]:
plot_units = '(' + units_by_did[p_did][d_name] + ')'
read_data['text'] = p_var + '<br>' + read_data['text_time'] + '<br>' + \
d_name + '=' + read_data[d_name].astype(str) + '<br>' + \
p_var + '=' + read_data[p_var].apply(lambda x: '{0:.2f}'.format(x))
y_title = d_name + ' ' + plot_units
trace = go.Scattergl(x=read_data['time'], y=read_data[d_name],
connectgaps=False,
name=p_var,
mode='markers',
hovertext=read_data['text'],
marker=dict(
cmin=read_data[p_var].min(),
cmax=read_data[p_var].max(),
color=read_data[p_var],
colorscale='inferno',
colorbar=dict(
title_side='right',
title_font_size=16,
tickfont_size=16,