def _slider(
self,
label: str,
min_value=None,
max_value=None,
value=None,
step=None,
format=None,
key: Optional[Key] = None,
help: Optional[str] = None,
on_change: Optional[WidgetCallback] = None,
args: Optional[WidgetArgs] = None,
kwargs: Optional[WidgetKwargs] = None,
*, # keyword-only arguments:
disabled: bool = False,
ctx: Optional[ScriptRunContext] = None,
):
key = to_key(key)
check_callback_rules(self.dg, on_change)
check_session_state_rules(default_value=value, key=key)
# Set value default.
if value is None:
value = min_value if min_value is not None else 0
SUPPORTED_TYPES = {
int: SliderProto.INT,
float: SliderProto.FLOAT,
datetime: SliderProto.DATETIME,
date: SliderProto.DATE,
time: SliderProto.TIME,
}
TIMELIKE_TYPES = (SliderProto.DATETIME, SliderProto.TIME,
SliderProto.DATE)
# Ensure that the value is either a single value or a range of values.
single_value = isinstance(value, tuple(SUPPORTED_TYPES.keys()))
range_value = isinstance(value,
(list, tuple)) and len(value) in (0, 1, 2)
if not single_value and not range_value:
raise StreamlitAPIException(
"Slider value should either be an int/float/datetime or a list/tuple of "
"0 to 2 ints/floats/datetimes")
# Simplify future logic by always making value a list
if single_value:
value = [value]
def all_same_type(items):
return len(set(map(type, items))) < 2
if not all_same_type(value):
raise StreamlitAPIException(
"Slider tuple/list components must be of the same type.\n"
f"But were: {list(map(type, value))}")
if len(value) == 0:
data_type = SliderProto.INT
else:
data_type = SUPPORTED_TYPES[type(value[0])]
datetime_min = time.min
datetime_max = time.max
if data_type == SliderProto.TIME:
datetime_min = time.min.replace(tzinfo=value[0].tzinfo)
datetime_max = time.max.replace(tzinfo=value[0].tzinfo)
if data_type in (SliderProto.DATETIME, SliderProto.DATE):
datetime_min = value[0] - timedelta(days=14)
datetime_max = value[0] + timedelta(days=14)
DEFAULTS = {
SliderProto.INT: {
"min_value": 0,
"max_value": 100,
"step": 1,
"format": "%d",
},
SliderProto.FLOAT: {
"min_value": 0.0,
"max_value": 1.0,
"step": 0.01,
"format": "%0.2f",
},
SliderProto.DATETIME: {
"min_value": datetime_min,
"max_value": datetime_max,
"step": timedelta(days=1),
"format": "YYYY-MM-DD",
},
SliderProto.DATE: {
"min_value": datetime_min,
"max_value": datetime_max,
"step": timedelta(days=1),
"format": "YYYY-MM-DD",
},
SliderProto.TIME: {
"min_value": datetime_min,
"max_value": datetime_max,
"step": timedelta(minutes=15),
"format": "HH:mm",
},
}
if min_value is None:
min_value = DEFAULTS[data_type]["min_value"]
if max_value is None:
max_value = DEFAULTS[data_type]["max_value"]
if step is None:
step = DEFAULTS[data_type]["step"]
if (data_type in (
SliderProto.DATETIME,
SliderProto.DATE,
) and max_value - min_value < timedelta(days=1)):
step = timedelta(minutes=15)
if format is None:
format = DEFAULTS[data_type]["format"]
if step == 0:
raise StreamlitAPIException(
"Slider components cannot be passed a `step` of 0.")
# Ensure that all arguments are of the same type.
slider_args = [min_value, max_value, step]
int_args = all(map(lambda a: isinstance(a, int), slider_args))
float_args = all(map(lambda a: isinstance(a, float), slider_args))
# When min and max_value are the same timelike, step should be a timedelta
timelike_args = (data_type in TIMELIKE_TYPES
and isinstance(step, timedelta)
and type(min_value) == type(max_value))
if not int_args and not float_args and not timelike_args:
raise StreamlitAPIException(
"Slider value arguments must be of matching types."
"\n`min_value` has %(min_type)s type."
"\n`max_value` has %(max_type)s type."
"\n`step` has %(step)s type." % {
"min_type": type(min_value).__name__,
"max_type": type(max_value).__name__,
"step": type(step).__name__,
})
# Ensure that the value matches arguments' types.
all_ints = data_type == SliderProto.INT and int_args
all_floats = data_type == SliderProto.FLOAT and float_args
all_timelikes = data_type in TIMELIKE_TYPES and timelike_args
if not all_ints and not all_floats and not all_timelikes:
raise StreamlitAPIException(
"Both value and arguments must be of the same type."
"\n`value` has %(value_type)s type."
"\n`min_value` has %(min_type)s type."
"\n`max_value` has %(max_type)s type." % {
"value_type": type(value).__name__,
"min_type": type(min_value).__name__,
"max_type": type(max_value).__name__,
})
# Ensure that min <= value(s) <= max, adjusting the bounds as necessary.
min_value = min(min_value, max_value)
max_value = max(min_value, max_value)
if len(value) == 1:
min_value = min(value[0], min_value)
max_value = max(value[0], max_value)
elif len(value) == 2:
start, end = value
if start > end:
# Swap start and end, since they seem reversed
start, end = end, start
value = start, end
min_value = min(start, min_value)
max_value = max(end, max_value)
else:
# Empty list, so let's just use the outer bounds
value = [min_value, max_value]
# Bounds checks. JSNumber produces human-readable exceptions that
# we simply re-package as StreamlitAPIExceptions.
# (We check `min_value` and `max_value` here; `value` and `step` are
# already known to be in the [min_value, max_value] range.)
try:
if all_ints:
JSNumber.validate_int_bounds(min_value, "`min_value`")
JSNumber.validate_int_bounds(max_value, "`max_value`")
elif all_floats:
JSNumber.validate_float_bounds(min_value, "`min_value`")
JSNumber.validate_float_bounds(max_value, "`max_value`")
elif all_timelikes:
# No validation yet. TODO: check between 0001-01-01 to 9999-12-31
pass
except JSNumberBoundsException as e:
raise StreamlitAPIException(str(e))
# Convert dates or times into datetimes
if data_type == SliderProto.TIME:
def _time_to_datetime(time):
# Note, here we pick an arbitrary date well after Unix epoch.
# This prevents pre-epoch timezone issues (https://bugs.python.org/issue36759)
# We're dropping the date from datetime laters, anyways.
return datetime.combine(date(2000, 1, 1), time)
value = list(map(_time_to_datetime, value))
min_value = _time_to_datetime(min_value)
max_value = _time_to_datetime(max_value)
if data_type == SliderProto.DATE:
def _date_to_datetime(date):
return datetime.combine(date, time())
value = list(map(_date_to_datetime, value))
min_value = _date_to_datetime(min_value)
max_value = _date_to_datetime(max_value)
# Now, convert to microseconds (so we can serialize datetime to a long)
if data_type in TIMELIKE_TYPES:
SECONDS_TO_MICROS = 1000 * 1000
DAYS_TO_MICROS = 24 * 60 * 60 * SECONDS_TO_MICROS
def _delta_to_micros(delta):
return (delta.microseconds +
delta.seconds * SECONDS_TO_MICROS +
delta.days * DAYS_TO_MICROS)
UTC_EPOCH = datetime(1970, 1, 1, tzinfo=timezone.utc)
def _datetime_to_micros(dt):
# The frontend is not aware of timezones and only expects a UTC-based timestamp (in microseconds).
# Since we want to show the date/time exactly as it is in the given datetime object,
# we just set the tzinfo to UTC and do not do any timezone conversions.
# Only the backend knows about original timezone and will replace the UTC timestamp in the deserialization.
utc_dt = dt.replace(tzinfo=timezone.utc)
return _delta_to_micros(utc_dt - UTC_EPOCH)
# Restore times/datetimes to original timezone (dates are always naive)
orig_tz = (value[0].tzinfo if data_type
in (SliderProto.TIME, SliderProto.DATETIME) else None)
def _micros_to_datetime(micros):
utc_dt = UTC_EPOCH + timedelta(microseconds=micros)
# Add the original timezone. No conversion is required here,
# since in the serialization, we also just replace the timestamp with UTC.
return utc_dt.replace(tzinfo=orig_tz)
value = list(map(_datetime_to_micros, value))
min_value = _datetime_to_micros(min_value)
max_value = _datetime_to_micros(max_value)
step = _delta_to_micros(step)
# It would be great if we could guess the number of decimal places from
# the `step` argument, but this would only be meaningful if step were a
# decimal. As a possible improvement we could make this function accept
# decimals and/or use some heuristics for floats.
slider_proto = SliderProto()
slider_proto.label = label
slider_proto.format = format
slider_proto.default[:] = value
slider_proto.min = min_value
slider_proto.max = max_value
slider_proto.step = step
slider_proto.data_type = data_type
slider_proto.options[:] = []
slider_proto.form_id = current_form_id(self.dg)
if help is not None:
slider_proto.help = dedent(help)
def deserialize_slider(ui_value: Optional[List[float]], widget_id=""):
if ui_value is not None:
val = ui_value
else:
# Widget has not been used; fallback to the original value,
val = cast(List[float], value)
# The widget always returns a float array, so fix the return type if necessary
if data_type == SliderProto.INT:
val = [int(v) for v in val]
if data_type == SliderProto.DATETIME:
val = [_micros_to_datetime(int(v)) for v in val]
if data_type == SliderProto.DATE:
val = [_micros_to_datetime(int(v)).date() for v in val]
if data_type == SliderProto.TIME:
val = [
_micros_to_datetime(int(v)).time().replace(tzinfo=orig_tz)
for v in val
]
return val[0] if single_value else tuple(val)
def serialize_slider(v: Any) -> List[Any]:
range_value = isinstance(v, (list, tuple))
value = list(v) if range_value else [v]
if data_type == SliderProto.DATE:
value = [
_datetime_to_micros(_date_to_datetime(v)) for v in value
]
if data_type == SliderProto.TIME:
value = [
_datetime_to_micros(_time_to_datetime(v)) for v in value
]
if data_type == SliderProto.DATETIME:
value = [_datetime_to_micros(v) for v in value]
return value
current_value, set_frontend_value = register_widget(
"slider",
slider_proto,
user_key=key,
on_change_handler=on_change,
args=args,
kwargs=kwargs,
deserializer=deserialize_slider,
serializer=serialize_slider,
ctx=ctx,
)
# This needs to be done after register_widget because we don't want
# the following proto fields to affect a widget's ID.
slider_proto.disabled = disabled
if set_frontend_value:
slider_proto.value[:] = serialize_slider(current_value)
slider_proto.set_value = True
self.dg._enqueue("slider", slider_proto)
return current_value
def _select_slider(
self,
label: str,
options: OptionSequence = [],
value: Any = None,
format_func: Callable[[Any], Any] = str,
key: Optional[Key] = None,
help: Optional[str] = None,
on_change: Optional[WidgetCallback] = None,
args: Optional[WidgetArgs] = None,
kwargs: Optional[WidgetKwargs] = None,
disabled: bool = False,
ctx: Optional[ScriptRunContext] = None,
) -> Any:
key = to_key(key)
check_callback_rules(self.dg, on_change)
check_session_state_rules(default_value=value, key=key)
opt = ensure_indexable(options)
if len(opt) == 0:
raise StreamlitAPIException(
"The `options` argument needs to be non-empty")
is_range_value = isinstance(value, (list, tuple))
def as_index_list(v):
is_range_value = isinstance(v, (list, tuple))
if is_range_value:
slider_value = [index_(opt, val) for val in v]
start, end = slider_value
if start > end:
slider_value = [end, start]
return slider_value
else:
# Simplify future logic by always making value a list
try:
return [index_(opt, v)]
except ValueError:
if value is not None:
raise
return [0]
# Convert element to index of the elements
slider_value = as_index_list(value)
slider_proto = SliderProto()
slider_proto.label = label
slider_proto.format = "%s"
slider_proto.default[:] = slider_value
slider_proto.min = 0
slider_proto.max = len(opt) - 1
slider_proto.step = 1 # default for index changes
slider_proto.data_type = SliderProto.INT
slider_proto.options[:] = [str(format_func(option)) for option in opt]
slider_proto.form_id = current_form_id(self.dg)
slider_proto.disabled = disabled
if help is not None:
slider_proto.help = dedent(help)
def deserialize_select_slider(ui_value, widget_id=""):
if not ui_value:
# Widget has not been used; fallback to the original value,
ui_value = slider_value
# The widget always returns floats, so convert to ints before indexing
return_value = list(map(lambda x: opt[int(x)],
ui_value)) # type: ignore[no-any-return]
# If the original value was a list/tuple, so will be the output (and vice versa)
return tuple(return_value) if is_range_value else return_value[0]
def serialize_select_slider(v):
return as_index_list(v)
current_value, set_frontend_value = register_widget(
"slider",
slider_proto,
user_key=key,
on_change_handler=on_change,
args=args,
kwargs=kwargs,
deserializer=deserialize_select_slider,
serializer=serialize_select_slider,
ctx=ctx,
)
if set_frontend_value:
slider_proto.value[:] = serialize_select_slider(current_value)
slider_proto.set_value = True
self.dg._enqueue("slider", slider_proto)
return current_value
def select_slider(
self,
label: str,
options: OptionSequence = [],
value=None,
format_func=str,
key: Optional[Key] = None,
help: Optional[str] = None,
on_change: Optional[WidgetCallback] = None,
args: Optional[WidgetArgs] = None,
kwargs: Optional[WidgetKwargs] = None,
):
"""
Display a slider widget to select items from a list.
This also allows you to render a range slider by passing a two-element
tuple or list as the `value`.
The difference between `st.select_slider` and `st.slider` is that
`select_slider` accepts any datatype and takes an iterable set of
options, while `slider` only accepts numerical or date/time data and
takes a range as input.
Parameters
----------
label : str
A short label explaining to the user what this slider is for.
options : Sequence, numpy.ndarray, pandas.Series, pandas.DataFrame, or pandas.Index
Labels for the slider options. All options will be cast to str
internally by default. For pandas.DataFrame, the first column is
selected.
value : a supported type or a tuple/list of supported types or None
The value of the slider when it first renders. If a tuple/list
of two values is passed here, then a range slider with those lower
and upper bounds is rendered. For example, if set to `(1, 10)` the
slider will have a selectable range between 1 and 10.
Defaults to first option.
format_func : function
Function to modify the display of the labels from the options.
argument. It receives the option as an argument and its output
will be cast to str.
key : str or int
An optional string or integer to use as the unique key for the widget.
If this is omitted, a key will be generated for the widget
based on its content. Multiple widgets of the same type may
not share the same key.
help : str
An optional tooltip that gets displayed next to the select slider.
on_change : callable
An optional callback invoked when this select_slider's value changes.
args : tuple
An optional tuple of args to pass to the callback.
kwargs : dict
An optional dict of kwargs to pass to the callback.
Returns
-------
any value or tuple of any value
The current value of the slider widget. The return type will match
the data type of the value parameter.
Examples
--------
>>> color = st.select_slider(
... 'Select a color of the rainbow',
... options=['red', 'orange', 'yellow', 'green', 'blue', 'indigo', 'violet'])
>>> st.write('My favorite color is', color)
And here's an example of a range select slider:
>>> start_color, end_color = st.select_slider(
... 'Select a range of color wavelength',
... options=['red', 'orange', 'yellow', 'green', 'blue', 'indigo', 'violet'],
... value=('red', 'blue'))
>>> st.write('You selected wavelengths between', start_color, 'and', end_color)
"""
key = to_key(key)
check_callback_rules(self.dg, on_change)
check_session_state_rules(default_value=value, key=key)
opt = ensure_indexable(options)
if len(opt) == 0:
raise StreamlitAPIException("The `options` argument needs to be non-empty")
is_range_value = isinstance(value, (list, tuple))
def as_index_list(v):
is_range_value = isinstance(v, (list, tuple))
if is_range_value:
slider_value = [index_(opt, val) for val in v]
start, end = slider_value
if start > end:
slider_value = [end, start]
return slider_value
else:
# Simplify future logic by always making value a list
try:
return [index_(opt, v)]
except ValueError:
if value is not None:
raise
return [0]
# Convert element to index of the elements
slider_value = as_index_list(value)
slider_proto = SliderProto()
slider_proto.label = label
slider_proto.format = "%s"
slider_proto.default[:] = slider_value
slider_proto.min = 0
slider_proto.max = len(opt) - 1
slider_proto.step = 1 # default for index changes
slider_proto.data_type = SliderProto.INT
slider_proto.options[:] = [str(format_func(option)) for option in opt]
slider_proto.form_id = current_form_id(self.dg)
if help is not None:
slider_proto.help = dedent(help)
def deserialize_select_slider(ui_value, widget_id=""):
if not ui_value:
# Widget has not been used; fallback to the original value,
ui_value = slider_value
# The widget always returns floats, so convert to ints before indexing
return_value = list(map(lambda x: opt[int(x)], ui_value)) # type: ignore[no-any-return]
# If the original value was a list/tuple, so will be the output (and vice versa)
return tuple(return_value) if is_range_value else return_value[0]
def serialize_select_slider(v):
return as_index_list(v)
current_value, set_frontend_value = register_widget(
"slider",
slider_proto,
user_key=key,
on_change_handler=on_change,
args=args,
kwargs=kwargs,
deserializer=deserialize_select_slider,
serializer=serialize_select_slider,
)
if set_frontend_value:
slider_proto.value[:] = serialize_select_slider(current_value)
slider_proto.set_value = True
self.dg._enqueue("slider", slider_proto)
return current_value
def slider(
self,
label: str,
min_value=None,
max_value=None,
value=None,
step=None,
format=None,
key: Optional[Key] = None,
help: Optional[str] = None,
on_change: Optional[WidgetCallback] = None,
args: Optional[WidgetArgs] = None,
kwargs: Optional[WidgetKwargs] = None,
):
"""Display a slider widget.
This supports int, float, date, time, and datetime types.
This also allows you to render a range slider by passing a two-element
tuple or list as the `value`.
The difference between `st.slider` and `st.select_slider` is that
`slider` only accepts numerical or date/time data and takes a range as
input, while `select_slider` accepts any datatype and takes an iterable
set of options.
Parameters
----------
label : str
A short label explaining to the user what this slider is for.
min_value : a supported type or None
The minimum permitted value.
Defaults to 0 if the value is an int, 0.0 if a float,
value - timedelta(days=14) if a date/datetime, time.min if a time
max_value : a supported type or None
The maximum permitted value.
Defaults to 100 if the value is an int, 1.0 if a float,
value + timedelta(days=14) if a date/datetime, time.max if a time
value : a supported type or a tuple/list of supported types or None
The value of the slider when it first renders. If a tuple/list
of two values is passed here, then a range slider with those lower
and upper bounds is rendered. For example, if set to `(1, 10)` the
slider will have a selectable range between 1 and 10.
Defaults to min_value.
step : int/float/timedelta or None
The stepping interval.
Defaults to 1 if the value is an int, 0.01 if a float,
timedelta(days=1) if a date/datetime, timedelta(minutes=15) if a time
(or if max_value - min_value < 1 day)
format : str or None
A printf-style format string controlling how the interface should
display numbers. This does not impact the return value.
Formatter for int/float supports: %d %e %f %g %i
Formatter for date/time/datetime uses Moment.js notation:
https://momentjs.com/docs/#/displaying/format/
key : str or int
An optional string or integer to use as the unique key for the widget.
If this is omitted, a key will be generated for the widget
based on its content. Multiple widgets of the same type may
not share the same key.
help : str
An optional tooltip that gets displayed next to the slider.
on_change : callable
An optional callback invoked when this slider's value changes.
args : tuple
An optional tuple of args to pass to the callback.
kwargs : dict
An optional dict of kwargs to pass to the callback.
Returns
-------
int/float/date/time/datetime or tuple of int/float/date/time/datetime
The current value of the slider widget. The return type will match
the data type of the value parameter.
Examples
--------
>>> age = st.slider('How old are you?', 0, 130, 25)
>>> st.write("I'm ", age, 'years old')
And here's an example of a range slider:
>>> values = st.slider(
... 'Select a range of values',
... 0.0, 100.0, (25.0, 75.0))
>>> st.write('Values:', values)
This is a range time slider:
>>> from datetime import time
>>> appointment = st.slider(
... "Schedule your appointment:",
... value=(time(11, 30), time(12, 45)))
>>> st.write("You're scheduled for:", appointment)
Finally, a datetime slider:
>>> from datetime import datetime
>>> start_time = st.slider(
... "When do you start?",
... value=datetime(2020, 1, 1, 9, 30),
... format="MM/DD/YY - hh:mm")
>>> st.write("Start time:", start_time)
"""
key = to_key(key)
check_callback_rules(self.dg, on_change)
check_session_state_rules(default_value=value, key=key)
# Set value default.
if value is None:
value = min_value if min_value is not None else 0
SUPPORTED_TYPES = {
int: SliderProto.INT,
float: SliderProto.FLOAT,
datetime: SliderProto.DATETIME,
date: SliderProto.DATE,
time: SliderProto.TIME,
}
TIMELIKE_TYPES = (SliderProto.DATETIME, SliderProto.TIME,
SliderProto.DATE)
# Ensure that the value is either a single value or a range of values.
single_value = isinstance(value, tuple(SUPPORTED_TYPES.keys()))
range_value = isinstance(value,
(list, tuple)) and len(value) in (0, 1, 2)
if not single_value and not range_value:
raise StreamlitAPIException(
"Slider value should either be an int/float/datetime or a list/tuple of "
"0 to 2 ints/floats/datetimes")
# Simplify future logic by always making value a list
if single_value:
value = [value]
def all_same_type(items):
return len(set(map(type, items))) < 2
if not all_same_type(value):
raise StreamlitAPIException(
"Slider tuple/list components must be of the same type.\n"
f"But were: {list(map(type, value))}")
if len(value) == 0:
data_type = SliderProto.INT
else:
data_type = SUPPORTED_TYPES[type(value[0])]
datetime_min = time.min
datetime_max = time.max
if data_type == SliderProto.TIME:
datetime_min = time.min.replace(tzinfo=value[0].tzinfo)
datetime_max = time.max.replace(tzinfo=value[0].tzinfo)
if data_type in (SliderProto.DATETIME, SliderProto.DATE):
datetime_min = value[0] - timedelta(days=14)
datetime_max = value[0] + timedelta(days=14)
DEFAULTS = {
SliderProto.INT: {
"min_value": 0,
"max_value": 100,
"step": 1,
"format": "%d",
},
SliderProto.FLOAT: {
"min_value": 0.0,
"max_value": 1.0,
"step": 0.01,
"format": "%0.2f",
},
SliderProto.DATETIME: {
"min_value": datetime_min,
"max_value": datetime_max,
"step": timedelta(days=1),
"format": "YYYY-MM-DD",
},
SliderProto.DATE: {
"min_value": datetime_min,
"max_value": datetime_max,
"step": timedelta(days=1),
"format": "YYYY-MM-DD",
},
SliderProto.TIME: {
"min_value": datetime_min,
"max_value": datetime_max,
"step": timedelta(minutes=15),
"format": "HH:mm",
},
}
if min_value is None:
min_value = DEFAULTS[data_type]["min_value"]
if max_value is None:
max_value = DEFAULTS[data_type]["max_value"]
if step is None:
step = DEFAULTS[data_type]["step"]
if (data_type in (
SliderProto.DATETIME,
SliderProto.DATE,
) and max_value - min_value < timedelta(days=1)):
step = timedelta(minutes=15)
if format is None:
format = DEFAULTS[data_type]["format"]
if step == 0:
raise StreamlitAPIException(
"Slider components cannot be passed a `step` of 0.")
# Ensure that all arguments are of the same type.
slider_args = [min_value, max_value, step]
int_args = all(map(lambda a: isinstance(a, int), slider_args))
float_args = all(map(lambda a: isinstance(a, float), slider_args))
# When min and max_value are the same timelike, step should be a timedelta
timelike_args = (data_type in TIMELIKE_TYPES
and isinstance(step, timedelta)
and type(min_value) == type(max_value))
if not int_args and not float_args and not timelike_args:
raise StreamlitAPIException(
"Slider value arguments must be of matching types."
"\n`min_value` has %(min_type)s type."
"\n`max_value` has %(max_type)s type."
"\n`step` has %(step)s type." % {
"min_type": type(min_value).__name__,
"max_type": type(max_value).__name__,
"step": type(step).__name__,
})
# Ensure that the value matches arguments' types.
all_ints = data_type == SliderProto.INT and int_args
all_floats = data_type == SliderProto.FLOAT and float_args
all_timelikes = data_type in TIMELIKE_TYPES and timelike_args
if not all_ints and not all_floats and not all_timelikes:
raise StreamlitAPIException(
"Both value and arguments must be of the same type."
"\n`value` has %(value_type)s type."
"\n`min_value` has %(min_type)s type."
"\n`max_value` has %(max_type)s type." % {
"value_type": type(value).__name__,
"min_type": type(min_value).__name__,
"max_type": type(max_value).__name__,
})
# Ensure that min <= value(s) <= max, adjusting the bounds as necessary.
min_value = min(min_value, max_value)
max_value = max(min_value, max_value)
if len(value) == 1:
min_value = min(value[0], min_value)
max_value = max(value[0], max_value)
elif len(value) == 2:
start, end = value
if start > end:
# Swap start and end, since they seem reversed
start, end = end, start
value = start, end
min_value = min(start, min_value)
max_value = max(end, max_value)
else:
# Empty list, so let's just use the outer bounds
value = [min_value, max_value]
# Bounds checks. JSNumber produces human-readable exceptions that
# we simply re-package as StreamlitAPIExceptions.
# (We check `min_value` and `max_value` here; `value` and `step` are
# already known to be in the [min_value, max_value] range.)
try:
if all_ints:
JSNumber.validate_int_bounds(min_value, "`min_value`")
JSNumber.validate_int_bounds(max_value, "`max_value`")
elif all_floats:
JSNumber.validate_float_bounds(min_value, "`min_value`")
JSNumber.validate_float_bounds(max_value, "`max_value`")
elif all_timelikes:
# No validation yet. TODO: check between 0001-01-01 to 9999-12-31
pass
except JSNumberBoundsException as e:
raise StreamlitAPIException(str(e))
# Convert dates or times into datetimes
if data_type == SliderProto.TIME:
def _time_to_datetime(time):
# Note, here we pick an arbitrary date well after Unix epoch.
# This prevents pre-epoch timezone issues (https://bugs.python.org/issue36759)
# We're dropping the date from datetime laters, anyways.
return datetime.combine(date(2000, 1, 1), time)
value = list(map(_time_to_datetime, value))
min_value = _time_to_datetime(min_value)
max_value = _time_to_datetime(max_value)
if data_type == SliderProto.DATE:
def _date_to_datetime(date):
return datetime.combine(date, time())
value = list(map(_date_to_datetime, value))
min_value = _date_to_datetime(min_value)
max_value = _date_to_datetime(max_value)
# Now, convert to microseconds (so we can serialize datetime to a long)
if data_type in TIMELIKE_TYPES:
SECONDS_TO_MICROS = 1000 * 1000
DAYS_TO_MICROS = 24 * 60 * 60 * SECONDS_TO_MICROS
def _delta_to_micros(delta):
return (delta.microseconds +
delta.seconds * SECONDS_TO_MICROS +
delta.days * DAYS_TO_MICROS)
UTC_EPOCH = datetime(1970, 1, 1, tzinfo=timezone.utc)
def _datetime_to_micros(dt):
# If dt is naive, Python converts from local time
utc_dt = dt.astimezone(timezone.utc)
return _delta_to_micros(utc_dt - UTC_EPOCH)
# Restore times/datetimes to original timezone (dates are always naive)
orig_tz = (value[0].tzinfo if data_type
in (SliderProto.TIME, SliderProto.DATETIME) else None)
def _micros_to_datetime(micros):
utc_dt = UTC_EPOCH + timedelta(microseconds=micros)
# Convert from utc back to original time (local time if naive)
return utc_dt.astimezone(orig_tz).replace(tzinfo=orig_tz)
value = list(map(_datetime_to_micros, value))
min_value = _datetime_to_micros(min_value)
max_value = _datetime_to_micros(max_value)
step = _delta_to_micros(step)
# It would be great if we could guess the number of decimal places from
# the `step` argument, but this would only be meaningful if step were a
# decimal. As a possible improvement we could make this function accept
# decimals and/or use some heuristics for floats.
slider_proto = SliderProto()
slider_proto.label = label
slider_proto.format = format
slider_proto.default[:] = value
slider_proto.min = min_value
slider_proto.max = max_value
slider_proto.step = step
slider_proto.data_type = data_type
slider_proto.options[:] = []
slider_proto.form_id = current_form_id(self.dg)
if help is not None:
slider_proto.help = dedent(help)
def deserialize_slider(ui_value: Optional[List[float]], widget_id=""):
if ui_value is not None:
val = ui_value
else:
# Widget has not been used; fallback to the original value,
val = cast(List[float], value)
# The widget always returns a float array, so fix the return type if necessary
if data_type == SliderProto.INT:
val = [int(v) for v in val]
if data_type == SliderProto.DATETIME:
val = [_micros_to_datetime(int(v)) for v in val]
if data_type == SliderProto.DATE:
val = [_micros_to_datetime(int(v)).date() for v in val]
if data_type == SliderProto.TIME:
val = [
_micros_to_datetime(int(v)).time().replace(tzinfo=orig_tz)
for v in val
]
return val[0] if single_value else tuple(val)
def serialize_slider(v: Any) -> List[Any]:
value = [v] if single_value else list(v)
if data_type == SliderProto.DATE:
value = [
_datetime_to_micros(_date_to_datetime(v)) for v in value
]
if data_type == SliderProto.TIME:
value = [
_datetime_to_micros(_time_to_datetime(v)) for v in value
]
if data_type == SliderProto.DATETIME:
value = [_datetime_to_micros(v) for v in value]
return value
current_value, set_frontend_value = register_widget(
"slider",
slider_proto,
user_key=key,
on_change_handler=on_change,
args=args,
kwargs=kwargs,
deserializer=deserialize_slider,
serializer=serialize_slider,
)
if set_frontend_value:
slider_proto.value[:] = serialize_slider(current_value)
slider_proto.set_value = True
self.dg._enqueue("slider", slider_proto)
return current_value
def select_slider(
self,
label,
options=[],
value=None,
format_func=str,
key=None,
):
"""
Display a slider widget to select items from a list.
This also allows you to render a range slider by passing a two-element
tuple or list as the `value`.
The difference between `st.select_slider` and `st.slider` is that
`select_slider` accepts any datatype and takes an iterable set of
options, while `slider` only accepts numerical or date/time data and
takes a range as input.
Parameters
----------
label : str
A short label explaining to the user what this slider is for.
options : list, tuple, numpy.ndarray, pandas.Series, or pandas.DataFrame
Labels for the slider options. All options will be cast to str
internally by default. For pandas.DataFrame, the first column is
selected.
value : a supported type or a tuple/list of supported types or None
The value of the slider when it first renders. If a tuple/list
of two values is passed here, then a range slider with those lower
and upper bounds is rendered. For example, if set to `(1, 10)` the
slider will have a selectable range between 1 and 10.
Defaults to first option.
format_func : function
Function to modify the display of the labels from the options.
argument. It receives the option as an argument and its output
will be cast to str.
key : str
An optional string to use as the unique key for the widget.
If this is omitted, a key will be generated for the widget
based on its content. Multiple widgets of the same type may
not share the same key.
Returns
-------
any value or tuple of any value
The current value of the slider widget. The return type will match
the data type of the value parameter.
Examples
--------
>>> color = st.select_slider(
... 'Select a color of the rainbow',
... options=['red', 'orange', 'yellow', 'green', 'blue', 'indigo', 'violet'])
>>> st.write('My favorite color is', color)
And here's an example of a range select slider:
>>> start_color, end_color = st.select_slider(
... 'Select a range of color wavelength',
... options=['red', 'orange', 'yellow', 'green', 'blue', 'indigo', 'violet'],
... value=('red', 'blue'))
>>> st.write('You selected wavelengths between', start_color, 'and', end_color)
"""
options = ensure_iterable(options)
if len(options) == 0:
raise StreamlitAPIException(
"The `options` argument needs to be non-empty")
is_range_value = isinstance(value, (list, tuple))
slider_value = value
# Convert element to index of the elements
if is_range_value:
slider_value = list(map(lambda v: options.index(v),
value)) # type: ignore[no-any-return]
start, end = slider_value
if start > end:
slider_value = [end, start]
else:
# Simplify future logic by always making value a list
try:
slider_value = [options.index(value)]
except ValueError:
if value is not None:
raise
slider_value = [0]
slider_proto = SliderProto()
slider_proto.label = label
slider_proto.format = "%s"
slider_proto.default[:] = slider_value
slider_proto.min = 0
slider_proto.max = len(options) - 1
slider_proto.step = 1 # default for index changes
slider_proto.data_type = SliderProto.INT
slider_proto.options[:] = [
str(format_func(option)) for option in options
]
ui_value = register_widget("slider", slider_proto, user_key=key)
if ui_value:
current_value = getattr(ui_value, "data")
else:
# Widget has not been used; fallback to the original value,
current_value = slider_value
# The widget always returns floats, so convert to ints before indexing
current_value = list(map(lambda x: options[int(x)],
current_value)) # type: ignore[no-any-return]
# If the original value was a list/tuple, so will be the output (and vice versa)
return_value = tuple(
current_value) if is_range_value else current_value[0]
return self.dg._enqueue("slider", slider_proto, return_value)