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importScripts("https://cdn.jsdelivr.net/pyodide/v0.24.1/full/pyodide.js");
function sendPatch(patch, buffers, msg_id) {
self.postMessage({
type: 'patch',
patch: patch,
buffers: buffers
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}
async function startApplication() {
console.log("Loading pyodide!");
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self.pyodide = await loadPyodide();
self.pyodide.globals.set("sendPatch", sendPatch);
console.log("Loaded!");
await self.pyodide.loadPackage("micropip");
const env_spec = ['https://cdn.holoviz.org/panel/wheels/bokeh-3.3.2-py3-none-any.whl', 'https://cdn.holoviz.org/panel/1.3.6/dist/wheels/panel-1.3.6-py3-none-any.whl', 'pyodide-http==0.2.1', 'holoviews', 'numpy', 'pandas', 'shapely']
for (const pkg of env_spec) {
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pkg_name = pkg
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import micropip
await micropip.install('${pkg}');
`);
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self.postMessage({
type: 'status',
msg: `Error while installing ${pkg_name}`
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}
}
console.log("Packages loaded!");
self.postMessage({type: 'status', msg: 'Executing code'})
const code = `
import asyncio
from panel.io.pyodide import init_doc, write_doc
init_doc()
"""
Source: https://awesome-panel.org/resources/commuting_flows_italian_regions/
"""
import holoviews as hv
import numpy as np
import pandas as pd
import panel as pn
from bokeh.models import HoverTool
from shapely.geometry import LineString
# Load the bokeh extension
hv.extension("bokeh")
# Set the sizing mode
pn.extension(sizing_mode="stretch_width")
# Dashboard title
DASH_TITLE = "Commuting flows between Italian Regions"
# Default colors for the dashboard
ACCENT = "#2f4f4f"
INCOMING_COLOR = "rgba(0, 108, 151, 0.75)"
OUTGOING_COLOR = "rgba(199, 81, 51, 0.75)"
INTERNAL_COLOR = "rgba(47, 79, 79, 0.55)"
# Default colors for indicators
DEFAULT_COLOR = "white"
TITLE_SIZE = "18pt"
FONT_SIZE = "20pt"
# Min/Max node size
MIN_PT_SIZE = 7
MAX_PT_SIZE = 10
# Min/Max curve width
MIN_LW = 1
MAX_LW = 10
# Dataframes dtypes
ITA_REGIONS_DTYPES = {
"cod_reg": "uint8",
"den_reg": "object",
"x": "object",
"y": "object",
}
NODES_DTYPES = {
"cod_reg": "uint8",
"x": "float64",
"y": "float64",
}
EDGES_DTYPES = {
"motivo": "object",
"interno": "bool",
"flussi": "uint32",
"reg_o": "uint8",
"reg_d": "uint8",
"x_o": "float64",
"y_o": "float64",
"x_d": "float64",
"y_d": "float64",
}
# Dictionary that maps region code to its name
ITA_REGIONS = {
1: "Piemonte",
2: "Valle d'Aosta/Vallée d'Aoste",
3: "Lombardia",
4: "Trentino-Alto Adige/Südtirol",
5: "Veneto",
6: "Friuli-Venezia Giulia",
7: "Liguria",
8: "Emilia-Romagna",
9: "Toscana",
10: "Umbria",
11: "Marche",
12: "Lazio",
13: "Abruzzo",
14: "Molise",
15: "Campania",
16: "Puglia",
17: "Basilicata",
18: "Calabria",
19: "Sicilia",
20: "Sardegna",
}
# Dictionary of options (Label/option) for commuting purpose
COMMUTING_PURPOSE = {
"Work": "Lavoro",
"Study": "Studio",
"Total": "Totale",
}
# Dashboard description
DASH_DESCR = f"""
<div>
<hr />
<p>A Panel dashboard showing <b style="color:{INCOMING_COLOR};">incoming</b>
and <b style="color:{OUTGOING_COLOR};">outgoing</b> commuting flows
for work and study between Italian Regions.</p>
<p>The width of the curves reflects the magnitude of the flows.</p>
<p>
<a href="https://www.istat.it/it/archivio/139381" target="_blank">Commuting data</a> from the
15th Population and Housing Census (Istat, 2011).
</p>
<p>
<a href="https://www.istat.it/it/archivio/222527" target="_blank">Administrative boundaries</a> from
ISTAT.
</p>
<hr />
</div>
"""
CSS_FIX = """
:host(.outline) .bk-btn.bk-btn-primary.bk-active, :host(.outline) .bk-btn.bk-btn-primary:active {
color: var(--foreground-on-accent-rest) !important;
}
"""
if not CSS_FIX in pn.config.raw_css:
pn.config.raw_css.append(CSS_FIX)
def get_incoming_numind(edges, region_code, comm_purpose):
"""
Returns the total incoming commuters to the selected Region.
"""
# Get the value of incoming commuters
if comm_purpose == "Totale":
query = f"reg_d == {region_code} & interno == 0"
else:
query = f"(reg_d == {region_code} & motivo == '{comm_purpose}' & interno == 0)"
flows = edges.query(query)["flussi"].sum()
return pn.indicators.Number(
name="Incoming",
value=flows,
default_color=DEFAULT_COLOR,
styles={"background": INCOMING_COLOR, "padding": "5px 10px 5px 10px", "border-radius": "5px"},
title_size=TITLE_SIZE,
font_size=FONT_SIZE,
sizing_mode="stretch_width",
align="center",
css_classes=["center_number"],
)
def get_outgoing_numind(edges, region_code, comm_purpose):
"""
Returns the outgoing commuters from
the selected Region.
"""
# Get the value of outgoing commuters
if comm_purpose == "Totale":
query = f"reg_o == {region_code} & interno == 0"
else:
query = f"(reg_o == {region_code} & motivo == '{comm_purpose}' & interno == 0)"
flows = edges.query(query)["flussi"].sum()
return pn.indicators.Number(
name="Outgoing",
value=flows,
default_color=DEFAULT_COLOR,
styles={"background": OUTGOING_COLOR, "padding": "5px 10px 5px 10px", "border-radius": "5px"},
title_size=TITLE_SIZE,
font_size=FONT_SIZE,
sizing_mode="stretch_width",
align="center",
css_classes=["center_number"],
)
def get_internal_numind(edges, region_code, comm_purpose):
"""
Returns the number of internal commuters of
the selected Region.
"""
# Get the value of internal commuters
if comm_purpose == "Totale":
query = f"reg_o == {region_code} & interno == 1"
else:
query = f"(reg_o == {region_code} & motivo == '{comm_purpose}' & interno == 1)"
flows = edges.query(query)["flussi"].sum()
return pn.indicators.Number(
name="Internal mobility",
value=flows,
default_color=DEFAULT_COLOR,
styles={"background": INTERNAL_COLOR, "padding": "5px 10px 5px 10px", "border-radius": "5px"},
title_size=TITLE_SIZE,
font_size=FONT_SIZE,
sizing_mode="stretch_width",
align="center",
css_classes=["center_number"],
)
def filter_edges(edges, region_code, comm_purpose):
"""
This function filters the rows of the edges for
the selected Region and commuting purpose.
"""
if comm_purpose == "Totale":
query = f"(reg_o == {region_code} & interno == 0) |"
query += f" (reg_d == {region_code} & interno == 0)"
else:
query = f"(reg_o == {region_code} & motivo == '{comm_purpose}' & interno == 0) |"
query += f" (reg_d == {region_code} & motivo == '{comm_purpose}' & interno == 0)"
return edges.query(query)
def get_nodes(nodes, edges, region_code, comm_purpose):
"""
Get the graph's nodes for the selected Region and commuting purpose
"""
# Filter the edges by Region and commuting purpose
filt_edges = filter_edges(edges, region_code, comm_purpose)
# Find the unique values of region codes
region_codes = np.unique(filt_edges[["reg_o", "reg_d"]].values)
# Filter the nodes
nodes = nodes[nodes["cod_reg"].isin(region_codes)]
# Reoder the columns for hv.Graph
nodes = nodes[["x", "y", "cod_reg"]]
# Assign the node size
nodes["size"] = np.where(
nodes["cod_reg"] == region_code, MAX_PT_SIZE, MIN_PT_SIZE
)
# Assigns a marker to the nodes
nodes["marker"] = np.where(
nodes["cod_reg"] == region_code, "square", "circle"
)
return nodes
def get_bezier_curve(x_o, y_o, x_d, y_d, steps=25):
"""
Draw a Bézier curve defined by a start point, endpoint and a control points
Source: https://stackoverflow.com/questions/69804595/trying-to-make-a-bezier-curve-on-pygame-library
"""
# Generate the O/D linestring
od_line = LineString([(x_o, y_o), (x_d, y_d)])
# Calculate the offset distance of the control point
offset_distance = od_line.length / 2
# Create a line parallel to the original at the offset distance
offset_pline = od_line.parallel_offset(offset_distance, "left")
# Get the XY coodinates of the control point
ctrl_x = offset_pline.centroid.x
ctrl_y = offset_pline.centroid.y
# Calculate the XY coordinates of the Bézier curve
t = np.array([i * 1 / steps for i in range(0, steps + 1)])
x_coords = x_o * (1 - t) ** 2 + 2 * (1 - t) * t * ctrl_x + x_d * t**2
y_coords = y_o * (1 - t) ** 2 + 2 * (1 - t) * t * ctrl_y + y_d * t**2
return (x_coords, y_coords)
def get_edge_width(flow, min_flow, max_flow):
"""
This function calculates the width of the curves
according to the magnitude of the flow.
"""
return MIN_LW + np.power(flow - min_flow, 0.57) * (
MAX_LW - MIN_LW
) / np.power(max_flow - min_flow, 0.57)
def get_edges(nodes, edges, region_code, comm_purpose):
"""
Get the graph's edges for the selected Region and commuting purpose
"""
# Filter the edges by Region and commuting purpose
filt_edges = filter_edges(edges, region_code, comm_purpose).copy()
# Aggregate the flows by Region of origin and destination
if comm_purpose == "Totale":
filt_edges = (
filt_edges.groupby(["reg_o", "reg_d"])
.agg(
motivo=("motivo", "first"),
interno=("interno", "first"),
flussi=("flussi", "sum"),
)
.reset_index()
)
# Assign Region names
filt_edges.loc[:,"den_reg_o"] = filt_edges["reg_o"].map(ITA_REGIONS)
filt_edges.loc[:,"den_reg_d"] = filt_edges["reg_d"].map(ITA_REGIONS)
# Add xy coordinates of origin
filt_edges = filt_edges.merge(
nodes.add_suffix("_o"), left_on="reg_o", right_on="cod_reg_o"
)
# Add xy coordinates of destination
filt_edges = filt_edges.merge(
nodes.add_suffix("_d"), left_on="reg_d", right_on="cod_reg_d"
)
# Get the Bézier curve
filt_edges["curve"] = filt_edges.apply(
lambda row: get_bezier_curve(
row["x_o"], row["y_o"], row["x_d"], row["y_d"]
),
axis=1,
)
# Get the minimum/maximum flow
min_flow = filt_edges["flussi"].min()
max_flow = filt_edges["flussi"].max()
# Calculate the curve width
filt_edges["width"] = filt_edges.apply(
lambda row: get_edge_width(
row["flussi"],
min_flow,
max_flow,
),
axis=1,
)
# Assigns the color to the incoming/outgoing edges
filt_edges["color"] = np.where(
filt_edges["reg_d"] == region_code, INCOMING_COLOR, OUTGOING_COLOR
)
filt_edges = filt_edges.sort_values(by="flussi")
return filt_edges
def get_flow_map(nodes, edges, region_admin_bounds, region_code, comm_purpose):
"""
Returns a Graph showing incoming and outgoing commuting flows
for the selected Region and commuting purpose.
"""
def hook(plot, element):
"""
Custom hook for disabling x/y tick lines/labels
"""
plot.state.xaxis.major_tick_line_color = None
plot.state.xaxis.minor_tick_line_color = None
plot.state.xaxis.major_label_text_font_size = "0pt"
plot.state.yaxis.major_tick_line_color = None
plot.state.yaxis.minor_tick_line_color = None
plot.state.yaxis.major_label_text_font_size = "0pt"
# Define a custom Hover tool
flow_map_hover = HoverTool(
tooltips=[
("Origin", "@den_reg_o"),
("Destination", "@den_reg_d"),
("Commuters", "@flussi"),
]
)
# Get the Nodes of the selected Region and commuting purpose
region_graph_nodes = get_nodes(nodes, edges, region_code, comm_purpose)
# Get the Edges of the selected Region and commuting purpose
region_graph_edges = get_edges(nodes, edges, region_code, comm_purpose)
# Get the list of Bézier curves
curves = region_graph_edges["curve"].to_list()
# Get the administrative boundary of the selected Region
region_admin_bound = region_admin_bounds[
(region_admin_bounds["cod_reg"] == region_code)
].to_dict("records")
# Draw the administrative boundary using hv.Path
region_admin_bound_path = hv.Path(region_admin_bound)
region_admin_bound_path.opts(color=ACCENT, line_width=1.0)
# Build a Graph from Edges, Nodes and Bézier curves
region_flow_graph = hv.Graph(
(region_graph_edges.drop("curve", axis=1), region_graph_nodes, curves)
)
# Additional plot options
region_flow_graph.opts(
title="Incoming and outgoing commuting flows",
xlabel="",
ylabel="",
node_color="white",
node_hover_fill_color="magenta",
node_line_color=ACCENT,
node_size="size",
node_marker="marker",
edge_color="color",
edge_hover_line_color="magenta",
edge_line_width="width",
inspection_policy="edges",
tools=[flow_map_hover],
hooks=[hook],
frame_height=500,
)
# Compose the flow map
flow_map = (
hv.element.tiles.CartoLight()
* region_admin_bound_path
* region_flow_graph
)
return flow_map
# Load the edges as a Dataframe
@pn.cache
def get_edges_df():
return pd.read_json(
"https://cdn.awesome-panel.org/resources/commuting_flows_italy/edges.json",
orient="split",
dtype=EDGES_DTYPES,
)
edges_df = get_edges_df()
# Load the nodes as a Dataframe
@pn.cache
def get_nodes_df():
return pd.read_json(
"https://cdn.awesome-panel.org/resources/commuting_flows_italy/nodes.json",
orient="split",
dtype=NODES_DTYPES,
)
nodes_df = get_nodes_df()
# Load the italian regions as a Dataframe
@pn.cache
def get_region_admin_bounds_df():
return pd.read_json(
"https://cdn.awesome-panel.org/resources/commuting_flows_italy/italian_regions.json",
orient="split",
dtype=ITA_REGIONS_DTYPES,
)
region_admin_bounds_df = get_region_admin_bounds_df()
# Region selector
region_options = dict(map(reversed, ITA_REGIONS.items()))
region_options = dict(sorted(region_options.items()))
region_select = pn.widgets.Select(
name="Region:",
options=region_options,
sizing_mode="stretch_width",
)
# Toggle buttons to select the commuting purpose
purpose_select = pn.widgets.ToggleGroup(
name="",
options=COMMUTING_PURPOSE,
behavior="radio",
sizing_mode="stretch_width",
button_type="primary", button_style="outline"
)
# Description pane
descr_pane = pn.pane.HTML(DASH_DESCR, styles={"text-align": "left"})
# Numeric indicator for incoming flows
incoming_numind_bind = pn.bind(
get_incoming_numind,
edges=edges_df,
region_code=region_select,
comm_purpose=purpose_select,
)
# Numeric indicator for outgoing flows
outgoing_numind_bind = pn.bind(
get_outgoing_numind,
edges=edges_df,
region_code=region_select,
comm_purpose=purpose_select,
)
# Numeric indicator for internal flows
internal_numind_bind = pn.bind(
get_internal_numind,
edges=edges_df,
region_code=region_select,
comm_purpose=purpose_select,
)
# Flow map
flowmap_bind = pn.bind(
get_flow_map,
nodes=nodes_df,
edges=edges_df,
region_admin_bounds=region_admin_bounds_df,
region_code=region_select,
comm_purpose=purpose_select,
)
# Compose the layout
layout = pn.Row(
pn.Column(
region_select,
purpose_select,
pn.Row(incoming_numind_bind, outgoing_numind_bind),
internal_numind_bind,
descr_pane,
width=350,
),
flowmap_bind,
)
pn.template.FastListTemplate(
site="",
logo="https://cdn.awesome-panel.org/resources/commuting_flows_italy/home_work.svg",
title=DASH_TITLE,
theme="default",
theme_toggle=False,
accent=ACCENT,
neutral_color="white",
main=[layout],
main_max_width="1000px",
).servable()
await write_doc()
`
try {
const [docs_json, render_items, root_ids] = await self.pyodide.runPythonAsync(code)
self.postMessage({
type: 'render',
docs_json: docs_json,
render_items: render_items,
root_ids: root_ids
})
} catch(e) {
const traceback = `${e}`
const tblines = traceback.split('\n')
self.postMessage({
type: 'status',
msg: tblines[tblines.length-2]
});
throw e
}
}
self.onmessage = async (event) => {
const msg = event.data
if (msg.type === 'rendered') {
self.pyodide.runPythonAsync(`
from panel.io.state import state
from panel.io.pyodide import _link_docs_worker
_link_docs_worker(state.curdoc, sendPatch, setter='js')
`)
} else if (msg.type === 'patch') {
self.pyodide.globals.set('patch', msg.patch)
self.pyodide.runPythonAsync(`
state.curdoc.apply_json_patch(patch.to_py(), setter='js')
`)
self.postMessage({type: 'idle'})
} else if (msg.type === 'location') {
self.pyodide.globals.set('location', msg.location)
self.pyodide.runPythonAsync(`
import json
from panel.io.state import state
from panel.util import edit_readonly
if state.location:
loc_data = json.loads(location)
with edit_readonly(state.location):
state.location.param.update({
k: v for k, v in loc_data.items() if k in state.location.param
})
`)
}
}
startApplication() |