def test_consolidate_InlineData():
data = alt.InlineData(values=[{
'a': 1,
'b': 1
}, {
'a': 2,
'b': 2
}],
format={'type': 'csv'})
chart = alt.Chart(data).mark_point()
with alt.data_transformers.enable(consolidate_datasets=False):
dct = chart.to_dict()
assert dct['data']['format'] == data.format
assert dct['data']['values'] == data.values
with alt.data_transformers.enable(consolidate_datasets=True):
dct = chart.to_dict()
assert dct['data']['format'] == data.format
assert list(dct['datasets'].values())[0] == data.values
data = alt.InlineData(values=[], name='runtime_data')
chart = alt.Chart(data).mark_point()
with alt.data_transformers.enable(consolidate_datasets=False):
dct = chart.to_dict()
assert dct['data'] == data.to_dict()
with alt.data_transformers.enable(consolidate_datasets=True):
dct = chart.to_dict()
assert dct['data'] == data.to_dict()
def test_chart_infer_types():
data = pd.DataFrame({'x': pd.date_range('2012', periods=10, freq='Y'),
'y': range(10),
'c': list('abcabcabca')})
def _check_encodings(chart):
dct = chart.to_dict()
assert dct['encoding']['x']['type'] == 'temporal'
assert dct['encoding']['x']['field'] == 'x'
assert dct['encoding']['y']['type'] == 'quantitative'
assert dct['encoding']['y']['field'] == 'y'
assert dct['encoding']['color']['type'] == 'nominal'
assert dct['encoding']['color']['field'] == 'c'
# Pass field names by keyword
chart = alt.Chart(data).mark_point().encode(x='x', y='y', color='c')
_check_encodings(chart)
# pass Channel objects by keyword
chart = alt.Chart(data).mark_point().encode(x=alt.X('x'), y=alt.Y('y'),
color=alt.Color('c'))
_check_encodings(chart)
# pass Channel objects by value
chart = alt.Chart(data).mark_point().encode(alt.X('x'), alt.Y('y'),
alt.Color('c'))
_check_encodings(chart)
# override default types
chart = alt.Chart(data).mark_point().encode(alt.X('x', type='nominal'),
alt.Y('y', type='ordinal'))
dct = chart.to_dict()
assert dct['encoding']['x']['type'] == 'nominal'
assert dct['encoding']['y']['type'] == 'ordinal'
def test_chart_operations():
data = pd.DataFrame({
'x': pd.date_range('2012', periods=10, freq='Y'),
'y': range(10),
'c': list('abcabcabca')
})
chart1 = alt.Chart(data).mark_line().encode(x='x', y='y', color='c')
chart2 = chart1.mark_point()
chart3 = chart1.mark_circle()
chart4 = chart1.mark_square()
chart = chart1 + chart2 + chart3
assert isinstance(chart, alt.LayerChart)
assert len(chart.layer) == 3
chart += chart4
assert len(chart.layer) == 4
chart = chart1 | chart2 | chart3
assert isinstance(chart, alt.HConcatChart)
assert len(chart.hconcat) == 3
chart |= chart4
assert len(chart.hconcat) == 4
chart = chart1 & chart2 & chart3
assert isinstance(chart, alt.VConcatChart)
assert len(chart.vconcat) == 3
chart &= chart4
assert len(chart.vconcat) == 4
def test_filter_transform_selection_predicates():
selector1 = alt.selection_interval(name='s1')
selector2 = alt.selection_interval(name='s2')
base = alt.Chart('data.txt').mark_point()
chart = base.transform_filter(selector1)
assert chart.to_dict()['transform'] == [{'filter': {'selection': 's1'}}]
chart = base.transform_filter(~selector1)
assert chart.to_dict()['transform'] == [{
'filter': {
'selection': {
'not': 's1'
}
}
}]
chart = base.transform_filter(selector1 & selector2)
assert chart.to_dict()['transform'] == [{
'filter': {
'selection': {
'and': ['s1', 's2']
}
}
}]
chart = base.transform_filter(selector1 | selector2)
assert chart.to_dict()['transform'] == [{
'filter': {
'selection': {
'or': ['s1', 's2']
}
}
}]
def test_chart_data_types():
Chart = lambda data: alt.Chart(data).mark_point().encode(x='x:Q', y='y:Q')
# Url Data
data = '/path/to/my/data.csv'
dct = Chart(data).to_dict()
assert dct['data'] == {'url': data}
# Dict Data
data = {"values": [{"x": 1, "y": 2}, {"x": 2, "y": 3}]}
with alt.data_transformers.enable(consolidate_datasets=False):
dct = Chart(data).to_dict()
assert dct['data'] == data
with alt.data_transformers.enable(consolidate_datasets=True):
dct = Chart(data).to_dict()
name = dct['data']['name']
assert dct['datasets'][name] == data['values']
# DataFrame data
data = pd.DataFrame({"x": range(5), "y": range(5)})
with alt.data_transformers.enable(consolidate_datasets=False):
dct = Chart(data).to_dict()
assert dct['data']['values'] == data.to_dict(orient='records')
with alt.data_transformers.enable(consolidate_datasets=True):
dct = Chart(data).to_dict()
name = dct['data']['name']
assert dct['datasets'][name] == data.to_dict(orient='records')
# Named data object
data = alt.NamedData(name='Foo')
dct = Chart(data).to_dict()
assert dct['data'] == {'name': 'Foo'}
def test_facet_parse_data():
data = pd.DataFrame({'x': range(5), 'y': range(5), 'row': list('abcab')})
chart = alt.Chart(data).mark_point().encode(x='x', y='y:O').facet(
row='row', column='column:O')
with alt.data_transformers.enable(consolidate_datasets=False):
dct = chart.to_dict()
assert 'values' in dct['data']
assert 'data' not in dct['spec']
assert dct['facet'] == {
'column': {
'field': 'column',
'type': 'ordinal'
},
'row': {
'field': 'row',
'type': 'nominal'
}
}
with alt.data_transformers.enable(consolidate_datasets=True):
dct = chart.to_dict()
assert 'datasets' in dct
assert 'name' in dct['data']
assert 'data' not in dct['spec']
assert dct['facet'] == {
'column': {
'field': 'column',
'type': 'ordinal'
},
'row': {
'field': 'row',
'type': 'nominal'
}
}
def test_themes():
chart = alt.Chart('foo.txt').mark_point()
active = alt.themes.active
try:
alt.themes.enable('default')
assert chart.to_dict()['config'] == {
"view": {
"width": 400,
"height": 300
}
}
alt.themes.enable('opaque')
assert chart.to_dict()['config'] == {
"background": "white",
"view": {
"width": 400,
"height": 300
}
}
alt.themes.enable('none')
assert 'config' not in chart.to_dict()
finally:
# re-enable the original active theme
alt.themes.enable(active)
def basic_chart():
data = pd.DataFrame({
'a': ['A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I'],
'b': [28, 55, 43, 91, 81, 53, 19, 87, 52]
})
return alt.Chart(data).mark_bar().encode(x='a', y='b')
def test_transforms():
# aggregate transform
agg1 = alt.AggregatedFieldDef(**{'as': 'x1', 'op': 'mean', 'field': 'y'})
agg2 = alt.AggregatedFieldDef(**{'as': 'x2', 'op': 'median', 'field': 'z'})
chart = alt.Chart().transform_aggregate([agg1], ['foo'], x2='median(z)')
kwds = dict(aggregate=[agg1, agg2], groupby=['foo'])
assert chart.transform == [alt.AggregateTransform(**kwds)]
# bin transform
chart = alt.Chart().transform_bin("binned", field="field", bin=True)
kwds = {'as': 'binned', 'field': 'field', 'bin': True}
assert chart.transform == [alt.BinTransform(**kwds)]
# calcualte transform
chart = alt.Chart().transform_calculate("calc", "datum.a * 4")
kwds = {'as': 'calc', 'calculate': 'datum.a * 4'}
assert chart.transform == [alt.CalculateTransform(**kwds)]
# filter transform
chart = alt.Chart().transform_filter("datum.a < 4")
assert chart.transform == [alt.FilterTransform(filter="datum.a < 4")]
# lookup transform
lookup_data = alt.LookupData(alt.UrlData('foo.csv'), 'id', ['rate'])
chart = alt.Chart().transform_lookup(from_=lookup_data,
as_='a',
lookup='a',
default='b')
kwds = {'from': lookup_data, 'as': 'a', 'lookup': 'a', 'default': 'b'}
assert chart.transform == [alt.LookupTransform(**kwds)]
# timeUnit transform
chart = alt.Chart().transform_timeunit("foo", field="x", timeUnit="date")
kwds = {'as': 'foo', 'field': 'x', 'timeUnit': 'date'}
assert chart.transform == [alt.TimeUnitTransform(**kwds)]
# window transform
chart = alt.Chart().transform_window(xsum='sum(x)',
ymin='min(y)',
frame=[None, 0])
window = [
alt.WindowFieldDef(**{
'as': 'xsum',
'field': 'x',
'op': 'sum'
}),
alt.WindowFieldDef(**{
'as': 'ymin',
'field': 'y',
'op': 'min'
})
]
# kwargs don't maintain order in Python < 3.6, so window list can
# be reversed
assert (chart.transform
== [alt.WindowTransform(frame=[None, 0], window=window)]
or chart.transform
== [alt.WindowTransform(frame=[None, 0], window=window[::-1])])
def test_add_selection():
selections = [
alt.selection_interval(),
alt.selection_single(),
alt.selection_multi()
]
chart = alt.Chart().mark_point().add_selection(
selections[0]).add_selection(selections[1], selections[2])
expected = selections[0] + selections[1] + selections[2]
assert chart.selection.to_dict() == expected.to_dict()
def test_selection_to_dict():
brush = alt.selection(type='interval')
# test some value selections
# Note: X and Y cannot have conditions
alt.Chart('path/to/data.json').mark_point().encode(
color=alt.condition(brush, alt.ColorValue('red'),
alt.ColorValue('blue')),
opacity=alt.condition(brush, alt.value(0.5), alt.value(1.0)),
text=alt.condition(brush, alt.TextValue('foo'),
alt.value('bar'))).to_dict()
# test some field selections
# Note: X and Y cannot have conditions
# Conditions cannot both be fields
alt.Chart('path/to/data.json').mark_point().encode(
color=alt.condition(brush, alt.Color('col1:N'), alt.value('blue')),
opacity=alt.condition(brush, 'col1:N', alt.value(0.5)),
text=alt.condition(brush, alt.value('abc'), alt.Text('col2:N')),
size=alt.condition(brush, alt.value(20), 'col2:N')).to_dict()
def test_transforms():
# aggregate transform
agg1 = alt.AggregatedFieldDef(**{'as': 'x1', 'op': 'mean', 'field': 'y'})
agg2 = alt.AggregatedFieldDef(**{'as': 'x2', 'op': 'median', 'field': 'z'})
chart = alt.Chart().transform_aggregate([agg1], ['foo'], x2='median(z)')
kwds = dict(aggregate=[agg1, agg2], groupby=['foo'])
assert chart.transform == [alt.AggregateTransform(**kwds)]
# bin transform
chart = alt.Chart().transform_bin("binned", field="field", bin=True)
kwds = {'as': 'binned', 'field': 'field', 'bin': True}
assert chart.transform == [alt.BinTransform(**kwds)]
# calcualte transform
chart = alt.Chart().transform_calculate("calc", "datum.a * 4")
kwds = {'as': 'calc', 'calculate': 'datum.a * 4'}
assert chart.transform == [alt.CalculateTransform(**kwds)]
# filter transform
chart = alt.Chart().transform_filter("datum.a < 4")
assert chart.transform == [alt.FilterTransform(filter="datum.a < 4")]
# lookup transform
lookup_data = alt.LookupData(alt.UrlData('foo.csv'), 'id', ['rate'])
chart = alt.Chart().transform_lookup(from_=lookup_data,
as_='a',
lookup='a',
default='b')
kwds = {'from': lookup_data, 'as': 'a', 'lookup': 'a', 'default': 'b'}
assert chart.transform == [alt.LookupTransform(**kwds)]
# timeUnit transform
chart = alt.Chart().transform_timeunit("foo", field="x", timeUnit="date")
kwds = {'as': 'foo', 'field': 'x', 'timeUnit': 'date'}
assert chart.transform == [alt.TimeUnitTransform(**kwds)]
def test_transforms():
# aggregate transform
chart = alt.Chart().transform_aggregate([], ['foo'])
kwds = {'aggregate': [], 'groupby': ['foo']}
assert chart.transform == [alt.AggregateTransform(**kwds)]
# bin transform
chart = alt.Chart().transform_bin("binned", field="field", bin=True)
kwds = {'as': 'binned', 'field': 'field', 'bin': True}
assert chart.transform == [alt.BinTransform(**kwds)]
# calcualte transform
chart = alt.Chart().transform_calculate("calc", "datum.a * 4")
kwds = {'as': 'calc', 'calculate': 'datum.a * 4'}
assert chart.transform == [alt.CalculateTransform(**kwds)]
# filter transform
chart = alt.Chart().transform_filter("datum.a < 4")
assert chart.transform == [alt.FilterTransform(filter="datum.a < 4")]
# lookup transform
lookup_data = alt.LookupData(alt.UrlData('foo.csv'), 'id', ['rate'])
chart = alt.Chart().transform_lookup(from_=lookup_data, as_='a',
lookup='a', default='b')
kwds = {'from': lookup_data,
'as': 'a',
'lookup': 'a',
'default': 'b'}
assert chart.transform == [alt.LookupTransform(**kwds)]
# timeUnit transform
chart = alt.Chart().transform_timeunit("foo", field="x", timeUnit="date")
kwds = {'as': 'foo', 'field': 'x', 'timeUnit': 'date'}
assert chart.transform == [alt.TimeUnitTransform(**kwds)]
def test_facet_parse():
chart = alt.Chart('data.csv').mark_point().encode(
x='x:Q',
y='y:Q'
).facet(
row='row:N',
column='column:O'
)
dct = chart.to_dict()
assert dct['data'] == {'url': 'data.csv'}
assert 'data' not in dct['spec']
assert dct['facet'] == {'column': {'field': 'column', 'type': 'ordinal'},
'row': {'field': 'row', 'type': 'nominal'}}
def test_resolve_methods():
chart = alt.LayerChart().resolve_axis(x='shared', y='independent')
assert chart.resolve == alt.Resolve(axis=alt.AxisResolveMap(x='shared', y='independent'))
chart = alt.LayerChart().resolve_legend(color='shared', fill='independent')
assert chart.resolve == alt.Resolve(legend=alt.LegendResolveMap(color='shared', fill='independent'))
chart = alt.LayerChart().resolve_scale(x='shared', y='independent')
assert chart.resolve == alt.Resolve(scale=alt.ScaleResolveMap(x='shared', y='independent'))
with pytest.raises(ValueError) as err:
alt.Chart().resolve_axis(x='shared')
assert str(err.value).endswith("object has no attribute 'resolve'")
def test_multiple_encodings():
encoding_dct = [{
'field': 'value',
'type': 'quantitative'
}, {
'field': 'name',
'type': 'nominal'
}]
chart1 = alt.Chart('data.csv').mark_point().encode(
detail=['value:Q', 'name:N'], tooltip=['value:Q', 'name:N'])
chart2 = alt.Chart('data.csv').mark_point().encode(
alt.Detail(['value:Q', 'name:N']), alt.Tooltip(['value:Q', 'name:N']))
chart3 = alt.Chart('data.csv').mark_point().encode(
[alt.Detail('value:Q'), alt.Detail('name:N')],
[alt.Tooltip('value:Q'), alt.Tooltip('name:N')])
for chart in [chart1, chart2, chart3]:
dct = chart.to_dict()
assert dct['encoding']['detail'] == encoding_dct
assert dct['encoding']['tooltip'] == encoding_dct
def test_facet_parse_data():
data = pd.DataFrame({'x': range(5), 'y': range(5), 'row': list('abcab')})
chart = alt.Chart(data).mark_point().encode(
x='x',
y='y:O'
).facet(
row='row',
column='column:O'
)
dct = chart.to_dict()
assert 'values' in dct['data']
assert 'data' not in dct['spec']
assert dct['facet'] == {'column': {'field': 'column', 'type': 'ordinal'},
'row': {'field': 'row', 'type': 'nominal'}}
def plot_rental_by_time(df, time_unit = "weekday"):
field_dict= {
"weekday": "weekday_num",
"month" : 'mnth'
}
sort_field = field_dict[time_unit]
casual_plt = alt.Chart(df).mark_bar().encode(y=alt.Y(time_unit, sort=alt.EncodingSortField(
field=sort_field, order="ascending", op='sum')), x=alt.X('casual', title="Rental Count")).properties(title="Casual")
registered_plt = alt.Chart(df).mark_bar().encode(y=alt.Y(time_unit, sort=alt.EncodingSortField(
field=sort_field, order="ascending", op='sum')), x=alt.X('registered', title="Rental Count")).properties(title='Registered')
total_plt = alt.Chart(df).mark_bar().encode(y=alt.Y(time_unit, sort=alt.EncodingSortField(
field=sort_field, order="ascending", op='sum')), x=alt.X('cnt', title='Rental Count')).properties(title="Total")
combined_plt = alt.vconcat(
casual_plt, registered_plt, total_plt)
combined_plt = combined_plt.resolve_scale(
x='shared').properties(title="Rental Number by Weekday")
return combined_plt
def test_chart_from_dict():
base = alt.Chart('data.csv').mark_point().encode(x='x:Q', y='y:Q')
charts = [
base, base + base, base | base, base & base,
base.facet(row='c:N'),
base.repeat(row=['c:N', 'd:N'])
]
for chart in charts:
chart_out = alt.Chart.from_dict(chart.to_dict())
assert type(chart_out) is type(chart)
# test that an invalid spec leads to a schema validation error
with pytest.raises(jsonschema.ValidationError):
alt.Chart.from_dict({'invalid': 'spec'})
def test_chart_data_types():
Chart = lambda data: alt.Chart(data).mark_point().encode(x='x:Q', y='y:Q')
# Url Data
data = '/path/to/my/data.csv'
dct = Chart(data).to_dict()
assert dct['data'] == {'url': data}
# Dict Data
data = {"values": [{"x": 1, "y": 2}, {"x": 2, "y": 3}]}
dct = Chart(data).to_dict()
assert dct['data'] == data
# DataFrame data
data = pd.DataFrame({"x": range(5), "y": range(5)})
dct = Chart(data).to_dict()
assert dct['data']['values'] == data.to_dict(orient='records')
# Altair data object
data = alt.NamedData(name='Foo')
dct = Chart(data).to_dict()
assert dct['data'] == {'name': 'Foo'}
def test_display_options():
chart = alt.Chart('data.csv').mark_point().encode(x='foo:Q')
# check that there are no options by default
with check_render_options():
chart.display()
# check that display options are passed
with check_render_options(embed_options={
'tooltip': False,
'renderer': 'canvas'
}):
chart.display('canvas', tooltip=False)
# check that above options do not persist
with check_render_options():
chart.display()
# check that display options augment rather than overwrite pre-set options
with alt.renderers.enable(embed_options={
'tooltip': True,
'renderer': 'svg'
}):
with check_render_options(embed_options={
'tooltip': True,
'renderer': 'svg'
}):
chart.display()
with check_render_options(embed_options={
'tooltip': True,
'renderer': 'canvas'
}):
chart.display('canvas')
# check that above options do not persist
with check_render_options():
chart.display()
def chart():
return alt.Chart('data.csv').mark_point()
