Esempio n. 1
0
# Stat / Small
# Create a stat card displaying a single value.
# #stat_card
# ---
import time

from faker import Faker

from synth import FakePercent
from h2o_wave import site, ui

page = site['/demo']

fake = Faker()
f = FakePercent()
val, _ = f.next()
c = page.add('example', ui.small_stat_card(
    box='1 1 1 1',
    title=fake.cryptocurrency_name(),
    value=f'${val:.2f}',
))
page.save()

while True:
    time.sleep(1)
    val, _ = f.next()
    c.value = f'${val:.2f}'
    page.save()
Esempio n. 2
0
# Stat / Gauge / Wide
# Create a wide stat card displaying a primary value, an auxiliary value and a progress gauge.
# ---
import time

from faker import Faker

from synth import FakePercent
from h2o_wave import site, ui

page = site['/demo']

fake = Faker()
f = FakePercent()
val, pc = f.next()
c = page.add(
    f'example',
    ui.wide_gauge_stat_card(
        box='1 1 2 1',
        title=fake.cryptocurrency_name(),
        value=
        '=${{intl foo minimum_fraction_digits=2 maximum_fraction_digits=2}}',
        aux_value=
        '={{intl bar style="percent" minimum_fraction_digits=2 maximum_fraction_digits=2}}',
        plot_color='$red',
        progress=pc,
        data=dict(foo=val, bar=pc),
    ))
page.save()

while True:
Esempio n. 3
0
def create_dashboard(update_freq=0.0):
    page = site['/demo']

    simples = []
    for i in range(1, 7):
        f = FakePercent()
        val, pc = f.next()
        c = page.add(
            f'a{i}',
            ui.small_stat_card(
                box=f'{i} 1 1 1',
                title=fake.cryptocurrency_name(),
                value=f'${val:.2f}',
            ))
        simples.append((f, c))

    simples_colored = []
    for i in range(1, 7):
        f = FakeCategoricalSeries()
        cat, val, pc = f.next()
        c = page.add(
            f'aa{i}',
            ui.small_series_stat_card(
                box=f'{6 + i} 1 1 1',
                title=fake.cryptocurrency_code(),
                value=
                '=${{intl qux minimum_fraction_digits=2 maximum_fraction_digits=2}}',
                data=dict(qux=val, quux=pc / 100),
                plot_category='foo',
                plot_value='qux',
                plot_color=next_color(),
                plot_data=data('foo qux', -15),
                plot_zero_value=0,
                plot_curve=next_curve(),
            ))
        simples_colored.append((f, c))

    lines = []
    for i in range(1, 13, 2):
        f = FakeCategoricalSeries()
        cat, val, pc = f.next()
        c = page.add(
            f'b{i}',
            ui.wide_series_stat_card(
                box=f'{i} 2 2 1',
                title=fake.cryptocurrency_name(),
                value=
                '=${{intl qux minimum_fraction_digits=2 maximum_fraction_digits=2}}',
                aux_value=
                '={{intl quux style="percent" minimum_fraction_digits=1 maximum_fraction_digits=1}}',
                data=dict(qux=val, quux=pc / 100),
                plot_category='foo',
                plot_value='qux',
                plot_color=next_color(),
                plot_data=data('foo qux', -15),
                plot_zero_value=0,
                plot_curve=next_curve(),
            ))
        lines.append((f, c))

    bars = []
    for i in range(1, 13, 2):
        f = FakeCategoricalSeries()
        cat, val, pc = f.next()
        c = page.add(
            f'c{i}',
            ui.wide_series_stat_card(
                box=f'{i} 3 2 1',
                title=fake.cryptocurrency_name(),
                value=
                '=${{intl qux minimum_fraction_digits=2 maximum_fraction_digits=2}}',
                aux_value=
                '={{intl quux style="percent" minimum_fraction_digits=1 maximum_fraction_digits=1}}',
                data=dict(qux=val, quux=pc),
                plot_type='interval',
                plot_category='foo',
                plot_value='qux',
                plot_color=next_color(),
                plot_data=data('foo qux', -25),
                plot_zero_value=0))
        bars.append((f, c))

    large_pcs = []
    for i in range(1, 13):
        f = FakePercent()
        val, pc = f.next()
        c = page.add(
            f'd{i}',
            ui.tall_gauge_stat_card(
                box=f'{i} 4 1 2',
                title=fake.cryptocurrency_name(),
                value=
                '=${{intl foo minimum_fraction_digits=2 maximum_fraction_digits=2}}',
                aux_value=
                '={{intl bar style="percent" minimum_fraction_digits=2 maximum_fraction_digits=2}}',
                plot_color=next_color(),
                progress=pc,
                data=dict(foo=val, bar=pc / 100),
            ))
        large_pcs.append((f, c))

    large_lines = []
    for i in range(1, 13):
        f = FakeCategoricalSeries()
        cat, val, pc = f.next()
        c = page.add(
            f'e{i}',
            ui.tall_series_stat_card(
                box=f'{i} 6 1 2',
                title=fake.cryptocurrency_name(),
                value=
                '=${{intl qux minimum_fraction_digits=2 maximum_fraction_digits=2}}',
                aux_value=
                '={{intl quux style="percent" minimum_fraction_digits=1 maximum_fraction_digits=1}}',
                data=dict(qux=val, quux=pc),
                plot_type='area',
                plot_category='foo',
                plot_value='qux',
                plot_color=next_color(),
                plot_data=data('foo qux', -15),
                plot_zero_value=0,
                plot_curve=next_curve(),
            ))
        large_lines.append((f, c))

    small_pcs = []
    for i in range(1, 7, 2):
        f = FakePercent()
        val, pc = f.next()
        c = page.add(
            f'f{i}',
            ui.wide_gauge_stat_card(
                box=f'{i} 8 2 1',
                title=fake.cryptocurrency_name(),
                value=
                '=${{intl foo minimum_fraction_digits=2 maximum_fraction_digits=2}}',
                aux_value=
                '={{intl bar style="percent" minimum_fraction_digits=2 maximum_fraction_digits=2}}',
                plot_color=next_color(),
                progress=pc,
                data=dict(foo=val, bar=pc / 100),
            ))
        small_pcs.append((f, c))

    small_pbs = []
    for i in range(7, 13, 2):
        f = FakePercent()
        val, pc = f.next()
        c = page.add(
            f'f{i}',
            ui.wide_bar_stat_card(
                box=f'{i} 8 2 1',
                title=fake.cryptocurrency_name(),
                value=
                '=${{intl foo minimum_fraction_digits=2 maximum_fraction_digits=2}}',
                aux_value=
                '={{intl bar style="percent" minimum_fraction_digits=2 maximum_fraction_digits=2}}',
                plot_color=next_color(),
                progress=pc,
                data=dict(foo=val, bar=pc / 100),
            ))
        small_pbs.append((f, c))

    large_cards = []
    for i in range(1, 7, 2):
        f = FakePercent()
        val, pc = f.next()
        c = page.add(
            f'g{i}',
            ui.large_stat_card(
                box=f'{i} 9 2 2',
                title=fake.cryptocurrency_name(),
                value=
                '=${{intl qux minimum_fraction_digits=2 maximum_fraction_digits=2}}',
                aux_value=
                '={{intl quux style="percent" minimum_fraction_digits=1 maximum_fraction_digits=1}}',
                data=dict(qux=val, quux=pc / 100),
                caption=' '.join(fake.sentences()),
            ))
        large_cards.append((f, c))

    large_pbs = []
    for i in range(7, 13, 2):
        f = FakePercent()
        val, pc = f.next()
        c = page.add(
            f'g{i}',
            ui.large_bar_stat_card(
                box=f'{i} 9 2 2',
                title=fake.cryptocurrency_name(),
                value=
                '=${{intl foo minimum_fraction_digits=2 maximum_fraction_digits=2}}',
                value_caption='This Month',
                aux_value=
                '={{intl bar style="percent" minimum_fraction_digits=2 maximum_fraction_digits=2}}',
                aux_value_caption='Previous Month',
                plot_color=next_color(),
                progress=pc,
                data=dict(foo=val, bar=pc / 100),
                caption=' '.join(fake.sentences(2)),
            ))
        large_pbs.append((f, c))

    page.save()

    while update_freq > 0:
        time.sleep(update_freq)

        for f, c in simples:
            val, pc = f.next()
            c.value = f'${val:.2f}',

        for f, c in simples_colored:
            cat, val, pc = f.next()
            c.data.qux = val
            c.data.quux = pc / 100
            c.plot_data[-1] = [cat, val]

        for f, c in lines:
            cat, val, pc = f.next()
            c.data.qux = val
            c.data.quux = pc / 100
            c.plot_data[-1] = [cat, val]

        for f, c in bars:
            cat, val, pc = f.next()
            c.data.qux = val
            c.data.quux = pc / 100
            c.plot_data[-1] = [cat, val]

        for f, c in large_lines:
            cat, val, pc = f.next()
            c.data.qux = val
            c.data.quux = pc / 100
            c.plot_data[-1] = [cat, val]

        for f, c in large_pcs:
            val, pc = f.next()
            c.data.foo = val
            c.data.bar = pc
            c.progress = pc

        for f, c in small_pcs:
            val, pc = f.next()
            c.data.foo = val
            c.data.bar = pc
            c.progress = pc

        for f, c in small_pbs:
            val, pc = f.next()
            c.data.foo = val
            c.data.bar = pc
            c.progress = pc

        for f, c in large_cards:
            val, pc = f.next()
            c.data.qux = val
            c.data.quux = pc

        for f, c in large_pbs:
            val, pc = f.next()
            c.data.foo = val
            c.data.bar = pc
            c.progress = pc

        page.save()