def create_wind_speed_daily(df):
    fig = make_subplots(rows=1, cols=2, specs=[[{'type': 'polar'}, {'type': 'xy'}]])

    fig.add_trace(go.Scatterpolargl(
          r = df['Wind Speed (m/s)'],
          theta = df['Wind Direction (°)'],
          name = "Wind Speed",
          marker=dict(size=4, color="darkorange"),
          mode="markers"
        ),
        row=1,
        col=1)

    fig.add_trace(go.Histogram(
        x = df['Wind Speed (m/s)'],
        nbinsx=26,
        name='wind speed',
        marker_color='darkorange'
        ),
        row=1,
        col=2
    )

    fig.update_layout(
        title='Variation in wind speed with direction on a specific date',
        paper_bgcolor='#AFEEEE',
        )
    # fig.update_traces()
    return fig
예제 #2
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def vertex_trace(vertices, kwargs):
    r, theta = get_marker_coord(vertices, kwargs)
    size = get_marker_size(vertices, kwargs)
    color = get_marker_color(vertices, kwargs)
    name = get_marker_name(vertices, kwargs)
    trace = go.Scatterpolargl(r=r,
                              theta=theta,
                              mode='markers',
                              hoverinfo='text+r+theta',
                              hovertext=name,
                              marker_cmin=0,
                              marker_cmax=1,
                              marker_colorscale='HSV_r',
                              marker_size=size,
                              marker_color=color,
                              showlegend=False,
                              marker_reversescale=True,
                              marker_opacity=1,
                              thetaunit='radians')
    return trace
def plot_wind_speed(df):
    fig = make_subplots(rows=1,
                        cols=2,
                        specs=[[{
                            'type': 'polar'
                        }, {
                            'type': 'xy'
                        }]])

    fig.add_trace(go.Scatterpolargl(r=df['Wind Speed (m/s)'],
                                    theta=df['Wind Direction (°)'],
                                    name="Wind Speed",
                                    marker=dict(size=5,
                                                color="mediumseagreen"),
                                    mode="markers"),
                  row=1,
                  col=1)

    fig.add_trace(
        go.Scatter(x=get_hours(),
                   y=df['Wind Speed (m/s)'],
                   mode='lines+markers',
                   name='Theoretical_Power_Curve (KWh)',
                   marker=dict(symbol="circle", color="mediumseagreen")))

    fig.update_layout(
        title='Predicted wind speed and wind direction for next 72 hrs.',
        paper_bgcolor='#AFEEEE',
        legend=dict(orientation="h",
                    yanchor="bottom",
                    y=1.02,
                    xanchor="right",
                    x=1,
                    bgcolor="LightSteelBlue",
                    bordercolor="Black",
                    borderwidth=2),
        xaxis_title='Time (in hours)',
        yaxis_title='Wind Speed(m/s)')
    return fig
예제 #4
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def edge_trace_iterator(adjacency_list, vertices, kwargs):

    coord_transform = get_coord_transform_function(kwargs)
    line_function = get_line_function(kwargs)
    line_width_func = get_line_width_func(adjacency_list, kwargs)
    coordinates = ('r', 'theta')

    for vertex, neighbour, attributes in utils.edge_iterator(adjacency_list):
        if neighbour < vertex:
            coord_vertex = itemgetter(*coordinates)(vertices[vertex])
            coord_neighbour = itemgetter(*coordinates)(vertices[vertex])
            coord_vertex = coord_transform(*coord_vertex)
            coord_neighbour = coord_transform(*coord_neighbour)
            r, theta = line_function(*coord_vertex, *coord_neighbour)
            trace = go.Scatterpolargl(r=r,
                                      theta=theta,
                                      mode='lines',
                                      line_color='rgb(125,125,125)',
                                      hoverinfo='skip',
                                      line_width=line_width_func(attributes),
                                      thetaunit='radians')
            yield trace