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toolbar module

Module for dealing with interactive GUIs.

Toolbar (VBox)

A toolbar that can be added to the map.

Source code in geemap/toolbar.py
@map_widgets.Theme.apply
class Toolbar(widgets.VBox):
    """A toolbar that can be added to the map."""

    @dataclass
    class Item:
        """A representation of an item in the toolbar.

        Attributes:
            icon: The icon to use for the item, from https://fontawesome.com/icons.
            tooltip: The tooltip text to show a user on hover.
            callback: A callback function to execute when the item icon is clicked.
                Its signature should be `callback(map, selected, item)`, where
                `map` is the host map, `selected` is a boolean indicating if the
                user selected or unselected the tool, and `item` is this object.
            reset: Whether to reset the selection after the callback has finished.
            control: The control widget associated with this item. Used to
                cleanup state when toggled off.
            toggle_button: The toggle button controlling the item.
        """

        icon: str
        tooltip: str
        callback: Callable[[Any, bool, Any], None]
        reset: bool = True
        control: Optional[widgets.Widget] = None
        toggle_button: Optional[widgets.ToggleButton] = None

        def toggle_off(self):
            if self.toggle_button:
                self.toggle_button.value = False

    ICON_WIDTH = "32px"
    ICON_HEIGHT = "32px"
    NUM_COLS = 3

    _TOGGLE_TOOL_EXPAND_ICON = "plus"
    _TOGGLE_TOOL_EXPAND_TOOLTIP = "Expand toolbar"
    _TOGGLE_TOOL_COLLAPSE_ICON = "minus"
    _TOGGLE_TOOL_COLLAPSE_TOOLTIP = "Collapse toolbar"

    def __init__(self, host_map, main_tools, extra_tools=None):
        """Adds a toolbar with `main_tools` and `extra_tools` to the `host_map`."""
        if not main_tools:
            raise ValueError("A toolbar cannot be initialized without `main_tools`.")
        self.host_map = host_map
        self.toggle_tool = Toolbar.Item(
            icon=self._TOGGLE_TOOL_EXPAND_ICON,
            tooltip=self._TOGGLE_TOOL_EXPAND_TOOLTIP,
            callback=self._toggle_callback,
        )
        self.on_layers_toggled = None
        self._accessory_widget = None

        if extra_tools:
            all_tools = main_tools + [self.toggle_tool] + extra_tools
        else:
            all_tools = main_tools
        icons = [tool.icon for tool in all_tools]
        tooltips = [tool.tooltip for tool in all_tools]
        callbacks = [tool.callback for tool in all_tools]
        resets = [tool.reset for tool in all_tools]
        self.num_collapsed_tools = len(main_tools) + (1 if extra_tools else 0)
        # -(-a//b) is the same as math.ceil(a/b)
        self.num_rows_expanded = -(-len(all_tools) // self.NUM_COLS)
        self.num_rows_collapsed = -(-self.num_collapsed_tools // self.NUM_COLS)

        self.all_widgets = [
            widgets.ToggleButton(
                layout=widgets.Layout(
                    width="auto", height="auto", padding="0px 0px 0px 4px"
                ),
                button_style="primary",
                icon=icons[i],
                tooltip=tooltips[i],
            )
            for i in range(len(all_tools))
        ]
        self.toggle_widget = self.all_widgets[len(main_tools)] if extra_tools else None

        # We start with a collapsed grid of just the main tools and the toggle one.
        self.grid = widgets.GridBox(
            children=self.all_widgets[: self.num_collapsed_tools],
            layout=widgets.Layout(
                width="109px",
                grid_template_columns=(self.ICON_WIDTH + " ") * self.NUM_COLS,
                grid_template_rows=(self.ICON_HEIGHT + " ") * self.num_rows_collapsed,
                grid_gap="1px 1px",
                padding="5px",
            ),
        )

        def curry_callback(callback, should_reset_after, widget, item):
            def returned_callback(change):
                if change["type"] != "change":
                    return
                callback(self.host_map, change["new"], item)
                if should_reset_after:
                    widget.value = False

            return returned_callback

        for id, widget in enumerate(self.all_widgets):
            all_tools[id].toggle_button = widget
            widget.observe(
                curry_callback(callbacks[id], resets[id], widget, all_tools[id]),
                "value",
            )

        self.toolbar_button = widgets.ToggleButton(
            value=False,
            tooltip="Toolbar",
            icon="wrench",
            layout=widgets.Layout(
                width="28px", height="28px", padding="0px 0px 0px 4px"
            ),
        )

        self.layers_button = widgets.ToggleButton(
            value=False,
            tooltip="Layers",
            icon="server",
            layout=widgets.Layout(height="28px", width="72px"),
        )

        self.toolbar_header = widgets.HBox(
            layout=widgets.Layout(
                display="flex", justify_content="flex-end", align_items="center"
            )
        )
        self.toolbar_header.children = [self.layers_button, self.toolbar_button]
        self.toolbar_footer = widgets.VBox()
        self.toolbar_footer.children = [self.grid]

        self.toolbar_button.observe(self._toolbar_btn_click, "value")
        self.layers_button.observe(self._layers_btn_click, "value")

        super().__init__(children=[self.toolbar_header])

    def reset(self):
        """Resets the toolbar so that no widget is selected."""
        for widget in self.all_widgets:
            widget.value = False

    def toggle_layers(self, enabled):
        self.layers_button.value = enabled
        self.on_layers_toggled(enabled)
        if enabled:
            self.toolbar_button.value = False

    def _reset_others(self, current):
        for other in self.all_widgets:
            if other is not current:
                other.value = False

    def _toggle_callback(self, m, selected, item):
        del m, item  # unused
        if not selected:
            return
        if self.toggle_widget.icon == self._TOGGLE_TOOL_EXPAND_ICON:
            self.grid.layout.grid_template_rows = (
                self.ICON_HEIGHT + " "
            ) * self.num_rows_expanded
            self.grid.children = self.all_widgets
            self.toggle_widget.tooltip = self._TOGGLE_TOOL_COLLAPSE_TOOLTIP
            self.toggle_widget.icon = self._TOGGLE_TOOL_COLLAPSE_ICON
        elif self.toggle_widget.icon == self._TOGGLE_TOOL_COLLAPSE_ICON:
            self.grid.layout.grid_template_rows = (
                self.ICON_HEIGHT + " "
            ) * self.num_rows_collapsed
            self.grid.children = self.all_widgets[: self.num_collapsed_tools]
            self.toggle_widget.tooltip = self._TOGGLE_TOOL_EXPAND_TOOLTIP
            self.toggle_widget.icon = self._TOGGLE_TOOL_EXPAND_ICON

    def _toolbar_btn_click(self, change):
        if change["new"]:
            self.layers_button.value = False
            self.children = [self.toolbar_header, self.toolbar_footer]
        else:
            if not self.layers_button.value:
                self.children = [self.toolbar_header]

    def _layers_btn_click(self, change):
        # Allow callbacks to set accessory_widget to prevent flicker on click.
        if self.on_layers_toggled:
            self.on_layers_toggled(change["new"])
        if change["new"]:
            self.toolbar_button.value = False
            self.children = [self.toolbar_header, self.toolbar_footer]
        else:
            if not self.toolbar_button.value:
                self.children = [self.toolbar_header]

    @property
    def accessory_widget(self):
        """A widget that temporarily replaces the tool grid."""
        return self._accessory_widget

    @accessory_widget.setter
    def accessory_widget(self, value):
        """Sets the widget that temporarily replaces the tool grid."""
        self._accessory_widget = value
        if self._accessory_widget:
            self.toolbar_footer.children = [self._accessory_widget]
        else:
            self.toolbar_footer.children = [self.grid]

accessory_widget property writable

A widget that temporarily replaces the tool grid.

Item dataclass

A representation of an item in the toolbar.

Attributes:

Name Type Description
icon str

The icon to use for the item, from https://fontawesome.com/icons.

tooltip str

The tooltip text to show a user on hover.

callback Callable[[Any, bool, Any], NoneType]

A callback function to execute when the item icon is clicked. Its signature should be callback(map, selected, item), where map is the host map, selected is a boolean indicating if the user selected or unselected the tool, and item is this object.

reset bool

Whether to reset the selection after the callback has finished.

control Optional[ipywidgets.widgets.widget.Widget]

The control widget associated with this item. Used to cleanup state when toggled off.

toggle_button Optional[ipywidgets.widgets.widget_bool.ToggleButton]

The toggle button controlling the item.

Source code in geemap/toolbar.py
@dataclass
class Item:
    """A representation of an item in the toolbar.

    Attributes:
        icon: The icon to use for the item, from https://fontawesome.com/icons.
        tooltip: The tooltip text to show a user on hover.
        callback: A callback function to execute when the item icon is clicked.
            Its signature should be `callback(map, selected, item)`, where
            `map` is the host map, `selected` is a boolean indicating if the
            user selected or unselected the tool, and `item` is this object.
        reset: Whether to reset the selection after the callback has finished.
        control: The control widget associated with this item. Used to
            cleanup state when toggled off.
        toggle_button: The toggle button controlling the item.
    """

    icon: str
    tooltip: str
    callback: Callable[[Any, bool, Any], None]
    reset: bool = True
    control: Optional[widgets.Widget] = None
    toggle_button: Optional[widgets.ToggleButton] = None

    def toggle_off(self):
        if self.toggle_button:
            self.toggle_button.value = False

__init__(self, host_map, main_tools, extra_tools=None) special

Adds a toolbar with main_tools and extra_tools to the host_map.

Source code in geemap/toolbar.py
def __init__(self, host_map, main_tools, extra_tools=None):
    """Adds a toolbar with `main_tools` and `extra_tools` to the `host_map`."""
    if not main_tools:
        raise ValueError("A toolbar cannot be initialized without `main_tools`.")
    self.host_map = host_map
    self.toggle_tool = Toolbar.Item(
        icon=self._TOGGLE_TOOL_EXPAND_ICON,
        tooltip=self._TOGGLE_TOOL_EXPAND_TOOLTIP,
        callback=self._toggle_callback,
    )
    self.on_layers_toggled = None
    self._accessory_widget = None

    if extra_tools:
        all_tools = main_tools + [self.toggle_tool] + extra_tools
    else:
        all_tools = main_tools
    icons = [tool.icon for tool in all_tools]
    tooltips = [tool.tooltip for tool in all_tools]
    callbacks = [tool.callback for tool in all_tools]
    resets = [tool.reset for tool in all_tools]
    self.num_collapsed_tools = len(main_tools) + (1 if extra_tools else 0)
    # -(-a//b) is the same as math.ceil(a/b)
    self.num_rows_expanded = -(-len(all_tools) // self.NUM_COLS)
    self.num_rows_collapsed = -(-self.num_collapsed_tools // self.NUM_COLS)

    self.all_widgets = [
        widgets.ToggleButton(
            layout=widgets.Layout(
                width="auto", height="auto", padding="0px 0px 0px 4px"
            ),
            button_style="primary",
            icon=icons[i],
            tooltip=tooltips[i],
        )
        for i in range(len(all_tools))
    ]
    self.toggle_widget = self.all_widgets[len(main_tools)] if extra_tools else None

    # We start with a collapsed grid of just the main tools and the toggle one.
    self.grid = widgets.GridBox(
        children=self.all_widgets[: self.num_collapsed_tools],
        layout=widgets.Layout(
            width="109px",
            grid_template_columns=(self.ICON_WIDTH + " ") * self.NUM_COLS,
            grid_template_rows=(self.ICON_HEIGHT + " ") * self.num_rows_collapsed,
            grid_gap="1px 1px",
            padding="5px",
        ),
    )

    def curry_callback(callback, should_reset_after, widget, item):
        def returned_callback(change):
            if change["type"] != "change":
                return
            callback(self.host_map, change["new"], item)
            if should_reset_after:
                widget.value = False

        return returned_callback

    for id, widget in enumerate(self.all_widgets):
        all_tools[id].toggle_button = widget
        widget.observe(
            curry_callback(callbacks[id], resets[id], widget, all_tools[id]),
            "value",
        )

    self.toolbar_button = widgets.ToggleButton(
        value=False,
        tooltip="Toolbar",
        icon="wrench",
        layout=widgets.Layout(
            width="28px", height="28px", padding="0px 0px 0px 4px"
        ),
    )

    self.layers_button = widgets.ToggleButton(
        value=False,
        tooltip="Layers",
        icon="server",
        layout=widgets.Layout(height="28px", width="72px"),
    )

    self.toolbar_header = widgets.HBox(
        layout=widgets.Layout(
            display="flex", justify_content="flex-end", align_items="center"
        )
    )
    self.toolbar_header.children = [self.layers_button, self.toolbar_button]
    self.toolbar_footer = widgets.VBox()
    self.toolbar_footer.children = [self.grid]

    self.toolbar_button.observe(self._toolbar_btn_click, "value")
    self.layers_button.observe(self._layers_btn_click, "value")

    super().__init__(children=[self.toolbar_header])

reset(self)

Resets the toolbar so that no widget is selected.

Source code in geemap/toolbar.py
def reset(self):
    """Resets the toolbar so that no widget is selected."""
    for widget in self.all_widgets:
        widget.value = False

build_toolbox(tools_dict, max_width='1080px', max_height='600px')

Build the GEE toolbox.

Parameters:

Name Type Description Default
tools_dict dict

A dictionary containing information for all tools.

required
max_width str

The maximum width of the widget.

'1080px'
max_height str

The maximum height of the widget.

'600px'

Returns:

Type Description
object

An ipywidget representing the toolbox.

Source code in geemap/toolbar.py
def build_toolbox(tools_dict, max_width="1080px", max_height="600px"):
    """Build the GEE toolbox.

    Args:
        tools_dict (dict): A dictionary containing information for all tools.
        max_width (str, optional): The maximum width of the widget.
        max_height (str, optional): The maximum height of the widget.

    Returns:
        object: An ipywidget representing the toolbox.
    """
    left_widget = widgets.VBox(layout=widgets.Layout(min_width="175px"))
    center_widget = widgets.VBox(
        layout=widgets.Layout(min_width="200px", max_width="200px")
    )
    right_widget = widgets.Output(
        layout=widgets.Layout(width="630px", max_height=max_height)
    )
    full_widget = widgets.HBox(
        [left_widget, center_widget, right_widget],
        layout=widgets.Layout(max_width=max_width, max_height=max_height),
    )

    search_widget = widgets.Text(
        placeholder="Search tools ...", layout=widgets.Layout(width="170px")
    )
    label_widget = widgets.Label(layout=widgets.Layout(width="170px"))
    label_widget.value = f"{len(tools_dict)} Available Tools"
    close_btn = widgets.Button(
        description="Close Toolbox", icon="close", layout=widgets.Layout(width="170px")
    )

    categories = {}
    categories["All Tools"] = []
    for key in tools_dict.keys():
        category = tools_dict[key]["category"]
        if category not in categories.keys():
            categories[category] = []
        categories[category].append(tools_dict[key]["name"])
        categories["All Tools"].append(tools_dict[key]["name"])

    options = list(categories.keys())
    all_tools = categories["All Tools"]
    all_tools.sort()
    category_widget = widgets.Select(
        options=options, layout=widgets.Layout(width="170px", height="165px")
    )
    tools_widget = widgets.Select(
        options=[], layout=widgets.Layout(width="195px", height="400px")
    )

    def category_selected(change):
        if change["new"]:
            selected = change["owner"].value
            options = categories[selected]
            options.sort()
            tools_widget.options = options
            label_widget.value = f"{len(options)} Available Tools"

    category_widget.observe(category_selected, "value")

    def tool_selected(change):
        if change["new"]:
            selected = change["owner"].value
            tool_dict = tools_dict[selected]
            with right_widget:
                right_widget.outputs = ()
                display(tool_gui(tool_dict, max_height=max_height))

    tools_widget.observe(tool_selected, "value")

    def search_changed(change):
        if change["new"]:
            keyword = change["owner"].value
            if len(keyword) > 0:
                selected_tools = []
                for tool in all_tools:
                    if keyword.lower() in tool.lower():
                        selected_tools.append(tool)
                if len(selected_tools) > 0:
                    tools_widget.options = selected_tools
                label_widget.value = f"{len(selected_tools)} Available Tools"
        else:
            tools_widget.options = all_tools
            label_widget.value = f"{len(tools_dict)} Available Tools"

    search_widget.observe(search_changed, "value")

    def cleanup():
        full_widget.close()

    full_widget.cleanup = cleanup

    def close_btn_clicked(b):
        full_widget.cleanup()

    close_btn.on_click(close_btn_clicked)

    category_widget.value = list(categories.keys())[0]
    tools_widget.options = all_tools
    left_widget.children = [category_widget, search_widget, label_widget, close_btn]
    center_widget.children = [tools_widget]

    return full_widget

convert_js2py(m)

A widget for converting Earth Engine JavaScript to Python.

Parameters:

Name Type Description Default
m object

geemap.Map

required
Source code in geemap/toolbar.py
def convert_js2py(m):
    """A widget for converting Earth Engine JavaScript to Python.

    Args:
        m (object): geemap.Map
    """

    full_widget = widgets.VBox(layout=widgets.Layout(width="465px", height="350px"))

    text_widget = widgets.Textarea(
        placeholder="Paste your Earth Engine JavaScript into this textbox and click the Convert button below to convert the Javascript to Python",
        layout=widgets.Layout(width="455px", height="310px"),
    )

    buttons = widgets.ToggleButtons(
        value=None,
        options=["Convert", "Clear", "Close"],
        tooltips=["Convert", "Clear", "Close"],
        button_style="primary",
    )
    buttons.style.button_width = "128px"

    def cleanup():
        if m._convert_ctrl is not None and m._convert_ctrl in m.controls:
            m.remove_control(m._convert_ctrl)
        full_widget.close()

    def button_clicked(change):
        if change["new"] == "Convert":
            from .conversion import create_new_cell, js_snippet_to_py

            if len(text_widget.value) > 0:
                out_lines = js_snippet_to_py(
                    text_widget.value,
                    add_new_cell=False,
                    import_ee=False,
                    import_geemap=False,
                    show_map=False,
                    Map=m._var_name,
                )
                if len(out_lines) > 0 and len(out_lines[0].strip()) == 0:
                    out_lines = out_lines[1:]

                prefix = "# The code has been copied to the clipboard. \n# Press Ctrl+V to in a code cell to paste it.\n"
                text_widget.value = "".join([prefix] + out_lines)
                create_code_cell("".join(out_lines))

        elif change["new"] == "Clear":
            text_widget.value = ""
        elif change["new"] == "Close":
            m._convert_ctrl.cleanup()
        buttons.value = None

    buttons.observe(button_clicked, "value")

    full_widget.children = [text_widget, buttons]
    widget_control = ipyleaflet.WidgetControl(widget=full_widget, position="topright")
    widget_control.cleanup = cleanup
    m.add_control(widget_control)
    m._convert_ctrl = widget_control

ee_plot_gui(m, position='topright', **kwargs)

Widget for plotting Earth Engine data.

Parameters:

Name Type Description Default
m object

geemap.Map.

required
position str

Position of the widget. Defaults to "topright".

'topright'
Source code in geemap/toolbar.py
def ee_plot_gui(m, position="topright", **kwargs):
    """Widget for plotting Earth Engine data.

    Args:
        m (object): geemap.Map.
        position (str, optional): Position of the widget. Defaults to "topright".
    """

    close_btn = widgets.Button(
        icon="times",
        tooltip="Close the plot widget",
        button_style="primary",
        layout=widgets.Layout(width="32px"),
    )

    m._plot_checked = True
    dropdown = widgets.Dropdown(options=list(m.ee_raster_layers.keys()))
    dropdown.layout.width = "18ex"
    m._plot_dropdown_widget = dropdown

    widget = widgets.HBox([dropdown, close_btn])

    plot_dropdown_control = ipyleaflet.WidgetControl(widget=widget, position=position)
    m._plot_dropdown_control = plot_dropdown_control
    m.add(plot_dropdown_control)

    old_draw_control = m.get_draw_control()
    m.remove_draw_control()
    m.add_draw_control_lite()
    draw_control = m.get_draw_control()

    if not hasattr(m, "_chart_points"):
        m._chart_points = []
    if not hasattr(m, "_chart_values"):
        m._chart_values = []
    if not hasattr(m, "_chart_labels"):
        m._chart_labels = None

    def get_layer_name_and_ee_object():
        if not m._plot_checked or not len(m.ee_raster_layers) > 0:
            raise AssertionError(
                "Plot widget must be active and one raster layer available."
            )
        plot_layer_name = m._plot_dropdown_widget.value
        ee_object = m.ee_layers.get(plot_layer_name)["ee_object"]
        if isinstance(ee_object, ee.ImageCollection):
            ee_object = ee_object.mosaic()
        return plot_layer_name, ee_object

    def generate_chart(dict_values, chart_point):
        try:
            plot_layer_name, ee_object = get_layer_name_and_ee_object()
            m.default_style = {"cursor": "wait"}
            plot_options = {}
            if hasattr(m, "_plot_options"):
                plot_options = m._plot_options
            if "title" not in plot_options.keys():
                plot_options["title"] = plot_layer_name
            if ("add_marker_cluster" in plot_options.keys()) and plot_options[
                "add_marker_cluster"
            ]:
                if not hasattr(m, "_plot_markers"):
                    m._plot_markers = []
                markers = m._plot_markers
                marker_cluster = m._plot_marker_cluster
                markers.append(ipyleaflet.Marker(location=chart_point))
                marker_cluster.markers = markers
                m._plot_marker_cluster = marker_cluster

            band_names = ee_object.bandNames().getInfo()
            if any(len(name) > 3 for name in band_names):
                band_names = list(range(1, len(band_names) + 1))

            m._chart_labels = band_names
            m._chart_points.append(chart_point)

            band_values = list(dict_values.values())
            m._chart_values.append(band_values)
            m.plot(band_names, band_values, **plot_options)
            if plot_options["title"] == plot_layer_name:
                del plot_options["title"]
            m.default_style = {"cursor": "crosshair"}
        except Exception as e:
            if not hasattr(m, "_plot_widget"):
                m._plot_widget = None
            if m._plot_widget is not None:
                with m._plot_widget:
                    m._plot_widget.outputs = ()
                    print("No data for the clicked location.")
            else:
                print(e)
            m.default_style = {"cursor": "crosshair"}

    def handle_interaction(**kwargs):
        try:
            _, ee_object = get_layer_name_and_ee_object()
        except AssertionError:
            return

        latlon = kwargs.get("coordinates")
        if kwargs.get("type") == "click":
            xy = ee.Geometry.Point(latlon[::-1])
            plot_options = {}
            if hasattr(m, "_plot_options"):
                plot_options = m._plot_options
            sample_scale = m.getScale()
            if "sample_scale" in plot_options.keys() and (
                plot_options["sample_scale"] is not None
            ):
                sample_scale = plot_options["sample_scale"]
            try:
                dict_values_tmp = (
                    ee_object.sample(xy, scale=sample_scale)
                    .first()
                    .toDictionary()
                    .getInfo()
                )
                b_names = ee_object.bandNames().getInfo()
                dict_values = dict(zip(b_names, [dict_values_tmp[b] for b in b_names]))
                generate_chart(dict_values, latlon)
            except Exception as e:
                if hasattr(m, "_plot_widget"):
                    m._plot_widget.clear_output()
                    with m._plot_widget:
                        print("No data for the clicked location.")
                else:
                    pass
                m.default_style = {"cursor": "crosshair"}

    m.on_interaction(handle_interaction)

    def handle_draw(_, geometry):
        try:
            _, ee_object = get_layer_name_and_ee_object()
        except AssertionError:
            return

        if m.roi_reducer_scale is None:
            scale = ee_object.select(0).projection().nominalScale()
        else:
            scale = m.roi_reducer_scale
        dict_values_tmp = ee_object.reduceRegion(
            reducer=m.roi_reducer,
            geometry=geometry,
            scale=scale,
            bestEffort=True,
        ).getInfo()
        b_names = ee_object.bandNames().getInfo()
        dict_values = dict(zip(b_names, [dict_values_tmp[b] for b in b_names]))
        chart_point = geometry.centroid(1).coordinates().getInfo()
        generate_chart(dict_values, chart_point)

    draw_control.on_geometry_create(handle_draw)

    def cleanup():
        m._plot_checked = False

        if (
            hasattr(m, "plot_control")
            and (m._plot_control is not None)
            and (m._plot_control in m.controls)
        ):
            m._plot_widget.outputs = ()
            m.remove_control(m._plot_control)

        if (
            m._plot_dropdown_control is not None
            and m._plot_dropdown_control in m.controls
        ):
            m.remove_control(m._plot_dropdown_control)

        widget.close()

        m.on_interaction(handle_interaction, remove=True)
        m._plot_widget = None
        m.default_style = {"cursor": "default"}
        if old_draw_control:
            old_draw_control.open()
            m.substitute(m.get_draw_control(), old_draw_control)
        else:
            m.remove_draw_control()

    m._plot_dropdown_control.cleanup = cleanup

    def cleanup():
        if not hasattr(m, "_plot_dropdown_widget"):
            m._plot_dropdown_widget = None
        if not hasattr(m, "_plot_dropdown_control"):
            m._plot_dropdown_control = None
        plot_dropdown_widget = m._plot_dropdown_widget
        plot_dropdown_control = m._plot_dropdown_control
        if plot_dropdown_control in m.controls:
            m.remove_control(plot_dropdown_control)
        del plot_dropdown_widget
        del plot_dropdown_control

        if not hasattr(m, "_plot_widget"):
            m._plot_widget = None
        if not hasattr(m, "_plot_control"):
            m._plot_control = None

        if m._plot_control in m.controls:
            plot_control = m._plot_control
            plot_widget = m._plot_widget
            m.remove_control(plot_control)
            m._plot_control = None
            m._plot_widget = None
            del plot_control
            del plot_widget
        if (
            hasattr(m, "_plot_marker_cluster")
            and m._plot_marker_cluster is not None
            and m._plot_marker_cluster in m.layers
        ):
            m.remove_layer(m._plot_marker_cluster)
        if hasattr(m, "_chart_points"):
            m._chart_points = []
        if hasattr(m, "_chart_values"):
            m._chart_values = []
        if hasattr(m, "_chart_labels"):
            m._chart_labels = None

    m._plot_dropdown_control.cleanup = cleanup

    def close_click(_):
        m._plot_dropdown_control.cleanup()

    close_btn.on_click(close_click)

inspector_gui(m=None)

Generates a tool GUI template using ipywidgets.

Parameters:

Name Type Description Default
m geemap.Map

The leaflet Map object. Defaults to None.

None

Returns:

Type Description
ipywidgets

The tool GUI widget.

Source code in geemap/toolbar.py
def inspector_gui(m=None):
    """Generates a tool GUI template using ipywidgets.

    Args:
        m (geemap.Map, optional): The leaflet Map object. Defaults to None.

    Returns:
        ipywidgets: The tool GUI widget.
    """
    import pandas as pd

    widget_width = "250px"
    padding = "0px 5px 0px 5px"  # upper, right, bottom, left
    style = {"description_width": "initial"}

    if m is not None:
        marker_cluster = ipyleaflet.MarkerCluster(name="Inspector Markers")
        setattr(m, "pixel_values", [])
        setattr(m, "marker_cluster", marker_cluster)

        if not hasattr(m, "interact_mode"):
            setattr(m, "interact_mode", False)

        if not hasattr(m, "inspector_output"):
            inspector_output = widgets.Output(
                layout=widgets.Layout(
                    width=widget_width,
                    padding="0px 5px 5px 5px",
                    max_width=widget_width,
                )
            )
            setattr(m, "inspector_output", inspector_output)

        output = m.inspector_output
        output.outputs = ()

        if not hasattr(m, "inspector_add_marker"):
            inspector_add_marker = widgets.Checkbox(
                description="Add Marker at clicked location",
                value=True,
                indent=False,
                layout=widgets.Layout(padding=padding, width=widget_width),
            )
            setattr(m, "inspector_add_marker", inspector_add_marker)
        add_marker = m.inspector_add_marker

        if not hasattr(m, "inspector_bands_chk"):
            inspector_bands_chk = widgets.Checkbox(
                description="Get pixel value for visible bands only",
                indent=False,
                layout=widgets.Layout(padding=padding, width=widget_width),
            )
            setattr(m, "inspector_bands_chk", inspector_bands_chk)
        bands_chk = m.inspector_bands_chk

        if not hasattr(m, "inspector_class_label"):
            inspector_label = widgets.Text(
                value="",
                description="Class label:",
                placeholder="Add a label to the marker",
                style=style,
                layout=widgets.Layout(width=widget_width, padding=padding),
            )
            setattr(m, "inspector_class_label", inspector_label)
        label = m.inspector_class_label

        options = []
        if hasattr(m, "cog_layer_dict"):
            options = list(m.cog_layer_dict.keys())
            options.sort()
        if len(options) == 0:
            default_option = None
        else:
            default_option = options[0]
        if not hasattr(m, "inspector_dropdown"):
            inspector_dropdown = widgets.Dropdown(
                options=options,
                value=default_option,
                description="Select a layer:",
                layout=widgets.Layout(width=widget_width, padding=padding),
                style=style,
            )
            setattr(m, "inspector_dropdown", inspector_dropdown)

        dropdown = m.inspector_dropdown

    toolbar_button = widgets.ToggleButton(
        value=False,
        tooltip="Toolbar",
        icon="info-circle",
        layout=widgets.Layout(width="28px", height="28px", padding="0px 0px 0px 4px"),
    )

    close_button = widgets.ToggleButton(
        value=False,
        tooltip="Close the tool",
        icon="times",
        button_style="primary",
        layout=widgets.Layout(height="28px", width="28px", padding="0px 0px 0px 4px"),
    )

    buttons = widgets.ToggleButtons(
        value=None,
        options=["Download", "Reset", "Close"],
        tooltips=["Download", "Reset", "Close"],
        button_style="primary",
    )
    buttons.style.button_width = "80px"

    if len(options) == 0:
        with output:
            print("No COG/STAC layers available")

    toolbar_widget = widgets.VBox()
    toolbar_widget.children = [toolbar_button]
    toolbar_header = widgets.HBox()
    toolbar_header.children = [close_button, toolbar_button]
    toolbar_footer = widgets.VBox()
    toolbar_footer.children = [
        add_marker,
        label,
        dropdown,
        bands_chk,
        buttons,
        output,
    ]

    toolbar_event = ipyevents.Event(
        source=toolbar_widget, watched_events=["mouseenter", "mouseleave"]
    )

    def chk_change(change):
        if hasattr(m, "pixel_values"):
            m.pixel_values = []
        if hasattr(m, "marker_cluster"):
            m.marker_cluster.markers = []
        output.outputs = ()

    bands_chk.observe(chk_change, "value")

    def handle_toolbar_event(event):
        if event["type"] == "mouseenter":
            toolbar_widget.children = [toolbar_header, toolbar_footer]
        elif event["type"] == "mouseleave":
            if not toolbar_button.value:
                toolbar_widget.children = [toolbar_button]
                toolbar_button.value = False
                close_button.value = False

    toolbar_event.on_dom_event(handle_toolbar_event)

    def toolbar_btn_click(change):
        if change["new"]:
            close_button.value = False
            toolbar_widget.children = [toolbar_header, toolbar_footer]
        else:
            if not close_button.value:
                toolbar_widget.children = [toolbar_button]

    toolbar_button.observe(toolbar_btn_click, "value")

    def cleanup():
        toolbar_button.value = False
        if m is not None:
            if hasattr(m, "inspector_mode"):
                delattr(m, "inspector_mode")
            if m.tool_control is not None and m.tool_control in m.controls:
                m.remove_control(m.tool_control)
                m.tool_control = None
            m.default_style = {"cursor": "default"}

            m.marker_cluster.markers = []
            m.pixel_values = []
            marker_cluster_layer = m.find_layer("Inspector Markers")
            if marker_cluster_layer is not None:
                m.remove_layer(marker_cluster_layer)

            if hasattr(m, "pixel_values"):
                delattr(m, "pixel_values")

            if hasattr(m, "marker_cluster"):
                delattr(m, "marker_cluster")

        toolbar_widget.close()

    def close_btn_click(change):
        if change["new"]:
            m.tool_control.cleanup()

    close_button.observe(close_btn_click, "value")

    def button_clicked(change):
        if change["new"] == "Download":
            with output:
                output.outputs = ()
                if len(m.pixel_values) == 0:
                    print(
                        "No pixel values available. Click on the map to start collection data."
                    )
                else:
                    print("Downloading pixel values...")
                    df = pd.DataFrame(m.pixel_values)
                    temp_csv = temp_file_path("csv")
                    df.to_csv(temp_csv, index=False)
                    link = create_download_link(temp_csv)
                    with output:
                        output.outputs = ()
                        display(link)
        elif change["new"] == "Reset":
            label.value = ""
            output.outputs = ()
            if hasattr(m, "pixel_values"):
                m.pixel_values = []
            if hasattr(m, "marker_cluster"):
                m.marker_cluster.markers = []
        elif change["new"] == "Close":
            m.tool_control.cleanup()

        buttons.value = None

    buttons.observe(button_clicked, "value")

    toolbar_button.value = True

    def handle_interaction(**kwargs):
        latlon = kwargs.get("coordinates")
        lat = round(latlon[0], 4)
        lon = round(latlon[1], 4)
        if (
            kwargs.get("type") == "click"
            and hasattr(m, "inspector_mode")
            and m.inspector_mode
        ):
            m.default_style = {"cursor": "wait"}

            with output:
                output.outputs = ()
                print("Getting pixel value ...")

                layer_dict = m.cog_layer_dict[dropdown.value]

            if layer_dict["type"] == "STAC":
                if bands_chk.value:
                    assets = layer_dict["assets"]
                else:
                    assets = None

                result = stac_pixel_value(
                    lon,
                    lat,
                    layer_dict["url"],
                    layer_dict["collection"],
                    layer_dict["items"],
                    assets,
                    layer_dict["titiler_endpoint"],
                    verbose=False,
                )
                if result is not None:
                    with output:
                        output.outputs = ()
                        print(f"lat/lon: {lat:.4f}, {lon:.4f}\n")
                        for key in result:
                            print(f"{key}: {result[key]}")

                        result["latitude"] = lat
                        result["longitude"] = lon
                        result["label"] = label.value
                        m.pixel_values.append(result)
                    if add_marker.value:
                        markers = list(m.marker_cluster.markers)
                        markers.append(ipyleaflet.Marker(location=latlon))
                        m.marker_cluster.markers = markers

                else:
                    with output:
                        output.outputs = ()
                        print("No pixel value available")
                        bounds = m.cog_layer_dict[m.inspector_dropdown.value]["bounds"]
                        m.zoom_to_bounds(bounds)
            elif layer_dict["type"] == "COG":
                result = cog_pixel_value(lon, lat, layer_dict["url"], verbose=False)
                if result is not None:
                    with output:
                        output.outputs = ()
                        print(f"lat/lon: {lat:.4f}, {lon:.4f}\n")
                        for key in result:
                            print(f"{key}: {result[key]}")

                        result["latitude"] = lat
                        result["longitude"] = lon
                        result["label"] = label.value
                        m.pixel_values.append(result)
                    if add_marker.value:
                        markers = list(m.marker_cluster.markers)
                        markers.append(ipyleaflet.Marker(location=latlon))
                        m.marker_cluster.markers = markers
                else:
                    with output:
                        output.outputs = ()
                        print("No pixel value available")
                        bounds = m.cog_layer_dict[m.inspector_dropdown.value]["bounds"]
                        m.zoom_to_bounds(bounds)

            elif layer_dict["type"] == "LOCAL":
                result = local_tile_pixel_value(
                    lon, lat, layer_dict["tile_client"], verbose=False
                )
                if result is not None:
                    if m.inspector_bands_chk.value:
                        band = m.cog_layer_dict[m.inspector_dropdown.value]["band"]
                        band_names = m.cog_layer_dict[m.inspector_dropdown.value][
                            "band_names"
                        ]
                        if band is not None:
                            sel_bands = [band_names[b - 1] for b in band]
                            result = {k: v for k, v in result.items() if k in sel_bands}
                    with output:
                        output.outputs = ()
                        print(f"lat/lon: {lat:.4f}, {lon:.4f}\n")
                        for key in result:
                            print(f"{key}: {result[key]}")

                        result["latitude"] = lat
                        result["longitude"] = lon
                        result["label"] = label.value
                        m.pixel_values.append(result)
                    if add_marker.value:
                        markers = list(m.marker_cluster.markers)
                        markers.append(ipyleaflet.Marker(location=latlon))
                        m.marker_cluster.markers = markers
                else:
                    with output:
                        output.outputs = ()
                        print("No pixel value available")
                        bounds = m.cog_layer_dict[m.inspector_dropdown.value]["bounds"]
                        m.zoom_to_bounds(bounds)
            m.default_style = {"cursor": "crosshair"}

    if m is not None:
        if not hasattr(m, "marker_cluster"):
            setattr(m, "marker_cluster", marker_cluster)
        m.add_layer(marker_cluster)

        if not m.interact_mode:
            m.on_interaction(handle_interaction)
            m.interact_mode = True

    if m is not None:
        toolbar_control = ipyleaflet.WidgetControl(
            widget=toolbar_widget, position="topright"
        )
        toolbar_control.cleanup = cleanup

        if toolbar_control not in m.controls:
            m.add_control(toolbar_control)
            m.tool_control = toolbar_control

        if not hasattr(m, "inspector_mode"):
            if hasattr(m, "cog_layer_dict"):
                setattr(m, "inspector_mode", True)
            else:
                setattr(m, "inspector_mode", False)

    else:
        return toolbar_widget

open_data_widget(m)

A widget for opening local vector/raster data.

Parameters:

Name Type Description Default
m object

geemap.Map

required
Source code in geemap/toolbar.py
def open_data_widget(m):
    """A widget for opening local vector/raster data.

    Args:
        m (object): geemap.Map
    """

    padding = "0px 0px 0px 5px"
    style = {"description_width": "initial"}

    tool_output = widgets.Output()
    tool_output_ctrl = ipyleaflet.WidgetControl(widget=tool_output, position="topright")

    if (
        hasattr(m, "_tool_output_ctrl")
        and m._tool_output_ctrl is not None
        and m._tool_output_ctrl in m.controls
    ):
        m.remove_control(m._tool_output_ctrl)

    file_type = widgets.ToggleButtons(
        options=["Shapefile", "GeoJSON", "CSV", "Vector", "Raster"],
        tooltips=[
            "Open a shapefile",
            "Open a GeoJSON file",
            "Open a vector dataset",
            "Create points from CSV",
            "Open a vector dataset",
            "Open a raster dataset",
        ],
    )
    file_type.style.button_width = "88px"

    filepath = widgets.Text(
        value="",
        description="File path or http URL:",
        tooltip="Enter a file path or http URL to vector data",
        style=style,
        layout=widgets.Layout(width="454px", padding=padding),
    )
    http_widget = widgets.HBox()

    file_chooser = FileChooser(
        os.getcwd(), sandbox_path=m.sandbox_path, layout=widgets.Layout(width="454px")
    )
    file_chooser.filter_pattern = "*.shp"
    file_chooser.use_dir_icons = True

    style = {"description_width": "initial"}
    layer_name = widgets.Text(
        value="Shapefile",
        description="Enter a layer name:",
        tooltip="Enter a layer name for the selected file",
        style=style,
        layout=widgets.Layout(width="454px", padding="0px 0px 0px 5px"),
    )

    longitude = widgets.Dropdown(
        options=[],
        value=None,
        description="Longitude:",
        layout=widgets.Layout(width="149px", padding="0px 0px 0px 5px"),
        style={"description_width": "initial"},
    )

    latitude = widgets.Dropdown(
        options=[],
        value=None,
        description="Latitude:",
        layout=widgets.Layout(width="149px", padding="0px 0px 0px 5px"),
        style={"description_width": "initial"},
    )

    label = widgets.Dropdown(
        options=[],
        value=None,
        description="Label:",
        layout=widgets.Layout(width="149px", padding="0px 0px 0px 5px"),
        style={"description_width": "initial"},
    )

    csv_widget = widgets.HBox()

    convert_bool = widgets.Checkbox(
        description="Convert to ee.FeatureCollection?",
        indent=False,
        layout=widgets.Layout(padding="0px 0px 0px 5px"),
    )
    convert_hbox = widgets.HBox([convert_bool])

    ok_cancel = widgets.ToggleButtons(
        value=None,
        options=["Apply", "Reset", "Close"],
        tooltips=["Apply", "Reset", "Close"],
        button_style="primary",
    )
    # ok_cancel.style.button_width = "133px"

    bands = widgets.Text(
        value=None,
        description="Band:",
        tooltip="Enter a list of band indices",
        style=style,
        layout=widgets.Layout(width="150px", padding=padding),
    )

    vmin = widgets.Text(
        value=None,
        description="vmin:",
        tooltip="Minimum value of the raster to visualize",
        style=style,
        layout=widgets.Layout(width="148px"),
    )

    vmax = widgets.Text(
        value=None,
        description="vmax:",
        tooltip="Maximum value of the raster to visualize",
        style=style,
        layout=widgets.Layout(width="148px"),
    )

    nodata = widgets.Text(
        value=None,
        description="Nodata:",
        tooltip="Nodata the raster to visualize",
        style=style,
        layout=widgets.Layout(width="150px", padding=padding),
    )

    palette = widgets.Dropdown(
        options=[],
        value=None,
        description="palette:",
        layout=widgets.Layout(width="300px"),
        style=style,
    )

    raster_options = widgets.VBox()

    main_widget = widgets.VBox(
        [
            file_type,
            file_chooser,
            http_widget,
            csv_widget,
            layer_name,
            convert_hbox,
            raster_options,
            ok_cancel,
        ]
    )

    tool_output.outputs = ()
    with tool_output:
        display(main_widget)

    def bands_changed(change):
        if change["new"] and "," in change["owner"].value:
            palette.value = None
            palette.disabled = True
        else:
            palette.disabled = False

    bands.observe(bands_changed, "value")

    def chooser_callback(chooser):
        filepath.value = file_chooser.selected

        if file_type.value == "CSV":
            import pandas as pd

            df = pd.read_csv(filepath.value)
            col_names = df.columns.values.tolist()
            longitude.options = col_names
            latitude.options = col_names
            label.options = col_names

            if "longitude" in col_names:
                longitude.value = "longitude"
            if "latitude" in col_names:
                latitude.value = "latitude"
            if "name" in col_names:
                label.value = "name"

    file_chooser.register_callback(chooser_callback)

    def file_type_changed(change):
        ok_cancel.value = None
        file_chooser.default_path = os.getcwd()
        file_chooser.reset()
        layer_name.value = file_type.value
        csv_widget.children = []
        filepath.value = ""

        if change["new"] == "Shapefile":
            file_chooser.filter_pattern = "*.shp"
            raster_options.children = []
            convert_hbox.children = [convert_bool]
            http_widget.children = []
        elif change["new"] == "GeoJSON":
            file_chooser.filter_pattern = "*.geojson"
            raster_options.children = []
            convert_hbox.children = [convert_bool]
            http_widget.children = [filepath]
        elif change["new"] == "Vector":
            file_chooser.filter_pattern = "*.*"
            raster_options.children = []
            convert_hbox.children = [convert_bool]
            http_widget.children = [filepath]
        elif change["new"] == "CSV":
            file_chooser.filter_pattern = ["*.csv", "*.CSV"]
            csv_widget.children = [longitude, latitude, label]
            raster_options.children = []
            convert_hbox.children = [convert_bool]
            http_widget.children = [filepath]
        elif change["new"] == "Raster":
            if not hasattr(m, "_colormaps"):
                from .colormaps import list_colormaps

                m._colormaps = list_colormaps(add_extra=True)
            file_chooser.filter_pattern = ["*.tif", "*.img"]
            palette.options = m._colormaps
            palette.value = None
            raster_options.children = [
                widgets.HBox([bands, vmin, vmax]),
                widgets.HBox([nodata, palette]),
            ]
            convert_hbox.children = []
            http_widget.children = [filepath]

    def cleanup():
        if (
            hasattr(m, "_tool_output_ctrl")
            and m._tool_output_ctrl is not None
            and m._tool_output_ctrl in m.controls
        ):
            m.remove_control(m._tool_output_ctrl)
            m._tool_output_ctrl = None

    tool_output_ctrl.cleanup = cleanup

    def ok_cancel_clicked(change):
        if change["new"] == "Apply":
            m.default_style = {"cursor": "wait"}
            file_path = filepath.value

            if file_path is not None:
                ext = os.path.splitext(file_path)[1]
                with tool_output:
                    if ext.lower() == ".shp":
                        if convert_bool.value:
                            ee_object = shp_to_ee(file_path)
                            m.addLayer(ee_object, {}, layer_name.value)
                        else:
                            m.add_shapefile(
                                file_path, style={}, layer_name=layer_name.value
                            )
                    elif ext.lower() == ".geojson":
                        if convert_bool.value:
                            ee_object = geojson_to_ee(file_path)
                            m.addLayer(ee_object, {}, layer_name.value)
                        else:
                            m.add_geojson(
                                file_path, style={}, layer_name=layer_name.value
                            )

                    elif ext.lower() == ".csv":
                        if convert_bool.value:
                            ee_object = csv_to_ee(
                                file_path, latitude.value, longitude.value
                            )
                            m.addLayer(ee_object, {}, layer_name.value)
                        else:
                            m.add_xy_data(
                                file_path,
                                x=longitude.value,
                                y=latitude.value,
                                label=label.value,
                                layer_name=layer_name.value,
                            )

                    elif ext.lower() in [".tif", "img"] and file_type.value == "Raster":
                        band = None
                        vis_min = None
                        vis_max = None
                        vis_nodata = None

                        try:
                            if len(bands.value) > 0:
                                band = bands.value.split(",")
                            if len(vmin.value) > 0:
                                vis_min = float(vmin.value)
                            if len(vmax.value) > 0:
                                vis_max = float(vmax.value)
                            if len(nodata.value) > 0:
                                vis_nodata = float(nodata.value)
                        except Exception as _:
                            pass

                        m.add_raster(
                            file_path,
                            layer_name=layer_name.value,
                            band=band,
                            palette=palette.value,
                            vmin=vis_min,
                            vmax=vis_max,
                            nodata=vis_nodata,
                        )
                    else:
                        m.add_vector(file_path, style={}, layer_name=layer_name.value)
            else:
                print("Please select a file to open.")

            m.default_style = {"cursor": "default"}

        elif change["new"] == "Reset":
            file_chooser.reset()
            tool_output.outputs = ()
            with tool_output:
                display(main_widget)
        elif change["new"] == "Close":
            tool_output_ctrl.cleanup()
        ok_cancel.value = None

    file_type.observe(file_type_changed, names="value")
    ok_cancel.observe(ok_cancel_clicked, names="value")
    # file_chooser.register_callback(chooser_callback)

    m.add_control(tool_output_ctrl)
    m._tool_output_ctrl = tool_output_ctrl

plotly_basemap_gui(canvas, map_min_width='78%', map_max_width='98%')

Widget for changing basemaps.

Parameters:

Name Type Description Default
m object

geemap.Map.

required
Source code in geemap/toolbar.py
def plotly_basemap_gui(canvas, map_min_width="78%", map_max_width="98%"):
    """Widget for changing basemaps.

    Args:
        m (object): geemap.Map.
    """
    from .plotlymap import basemaps

    m = canvas.map
    layer_count = len(m.layout.mapbox.layers)
    container_widget = canvas.container_widget
    map_widget = canvas.map_widget

    map_widget.layout.width = map_min_width

    value = "Esri.WorldTopoMap"
    m.add_basemap(value)

    dropdown = widgets.Dropdown(
        options=list(basemaps.keys()),
        value=value,
        layout=widgets.Layout(width="200px"),
    )

    close_btn = widgets.Button(
        icon="times",
        tooltip="Close the basemap widget",
        button_style="primary",
        layout=widgets.Layout(width="32px"),
    )

    basemap_widget = widgets.HBox([dropdown, close_btn])
    container_widget.children = [basemap_widget]

    def on_click(change):
        basemap_name = change["new"]
        m.layout.mapbox.layers = m.layout.mapbox.layers[:layer_count]
        m.add_basemap(basemap_name)

    dropdown.observe(on_click, "value")

    def close_click(change):
        container_widget.children = []
        basemap_widget.close()
        map_widget.layout.width = map_max_width
        canvas.toolbar_reset()
        canvas.toolbar_button.value = False

    close_btn.on_click(close_click)

plotly_search_basemaps(canvas)

The widget for search XYZ tile services.

Parameters:

Name Type Description Default
m plotlymap.Map

The Plotly Map object. Defaults to None.

required

Returns:

Type Description
ipywidgets

The tool GUI widget.

Source code in geemap/toolbar.py
def plotly_search_basemaps(canvas):
    """The widget for search XYZ tile services.

    Args:
        m (plotlymap.Map, optional): The Plotly Map object. Defaults to None.

    Returns:
        ipywidgets: The tool GUI widget.
    """
    import xyzservices.providers as xyz
    from xyzservices import TileProvider

    m = canvas.map
    container_widget = canvas.container_widget
    map_widget = canvas.map_widget
    map_widget.layout.width = "75%"

    # map_widget.layout.width = map_min_width

    widget_width = "250px"
    padding = "0px 0px 0px 5px"  # upper, right, bottom, left
    style = {"description_width": "initial"}

    toolbar_button = widgets.ToggleButton(
        value=False,
        tooltip="Toolbar",
        icon="search",
        layout=widgets.Layout(width="28px", height="28px", padding="0px 0px 0px 4px"),
    )

    close_button = widgets.ToggleButton(
        value=False,
        tooltip="Close the tool",
        icon="times",
        button_style="primary",
        layout=widgets.Layout(height="28px", width="28px", padding="0px 0px 0px 4px"),
    )

    checkbox = widgets.Checkbox(
        description="Search Quick Map Services (QMS)",
        indent=False,
        layout=widgets.Layout(padding=padding, width=widget_width),
    )

    providers = widgets.Dropdown(
        options=[],
        value=None,
        description="XYZ Tile:",
        layout=widgets.Layout(width=widget_width, padding=padding),
        style=style,
    )

    keyword = widgets.Text(
        value="",
        description="Search keyword:",
        placeholder="OpenStreetMap",
        style=style,
        layout=widgets.Layout(width=widget_width, padding=padding),
    )

    def search_callback(change):
        providers.options = []
        if keyword.value != "":
            tiles = search_xyz_services(keyword=keyword.value)
            if checkbox.value:
                tiles = tiles + search_qms(keyword=keyword.value)
            providers.options = tiles

    keyword.on_submit(search_callback)

    buttons = widgets.ToggleButtons(
        value=None,
        options=["Search", "Reset", "Close"],
        tooltips=["Search", "Reset", "Close"],
        button_style="primary",
    )
    buttons.style.button_width = "80px"

    output = widgets.Output(layout=widgets.Layout(width=widget_width, padding=padding))

    def providers_change(change):
        if change["new"] != "":
            provider = change["new"]
            if provider is not None:
                if provider.startswith("qms"):
                    with output:
                        output.outputs = ()
                        print("Adding data. Please wait...")
                    name = provider[4:]
                    qms_provider = TileProvider.from_qms(name)
                    url = qms_provider.build_url()
                    attribution = qms_provider.attribution
                    m.add_tile_layer(url, name, attribution)
                    output.outputs = ()
                elif provider.startswith("xyz"):
                    name = provider[4:]
                    xyz_provider = xyz.flatten()[name]
                    url = xyz_provider.build_url()
                    attribution = xyz_provider.attribution
                    if xyz_provider.requires_token():
                        with output:
                            output.outputs = ()
                            print(f"{provider} requires an API Key.")
                    m.add_tile_layer(url, name, attribution)

    providers.observe(providers_change, "value")

    toolbar_widget = widgets.VBox()
    toolbar_widget.children = [toolbar_button]
    toolbar_header = widgets.HBox()
    toolbar_header.children = [close_button, toolbar_button]
    toolbar_footer = widgets.VBox()
    toolbar_footer.children = [
        checkbox,
        keyword,
        providers,
        buttons,
        output,
    ]

    toolbar_event = ipyevents.Event(
        source=toolbar_widget, watched_events=["mouseenter", "mouseleave"]
    )

    def handle_toolbar_event(event):
        if event["type"] == "mouseenter":
            toolbar_widget.children = [toolbar_header, toolbar_footer]
        elif event["type"] == "mouseleave":
            if not toolbar_button.value:
                toolbar_widget.children = [toolbar_button]
                toolbar_button.value = False
                close_button.value = False

    toolbar_event.on_dom_event(handle_toolbar_event)

    def toolbar_btn_click(change):
        if change["new"]:
            close_button.value = False
            toolbar_widget.children = [toolbar_header, toolbar_footer]
        else:
            if not close_button.value:
                toolbar_widget.children = [toolbar_button]

    toolbar_button.observe(toolbar_btn_click, "value")

    def close_btn_click(change):
        if change["new"]:
            toolbar_button.value = False
            canvas.toolbar_reset()
            toolbar_widget.close()

    close_button.observe(close_btn_click, "value")

    def button_clicked(change):
        if change["new"] == "Search":
            providers.options = []
            output.outputs = ()
            if keyword.value != "":
                tiles = search_xyz_services(keyword=keyword.value)
                if checkbox.value:
                    tiles = tiles + search_qms(keyword=keyword.value)
                providers.options = tiles
            else:
                with output:
                    print("Please enter a search keyword.")
        elif change["new"] == "Reset":
            keyword.value = ""
            providers.options = []
            output.outputs = ()
        elif change["new"] == "Close":
            canvas.toolbar_reset()
            toolbar_widget.close()

        buttons.value = None

    buttons.observe(button_clicked, "value")

    toolbar_button.value = True
    container_widget.children = [toolbar_widget]

plotly_toolbar(canvas)

Creates the main toolbar and adds it to the map.

Parameters:

Name Type Description Default
m plotlymap.Map

The plotly Map object.

required
Source code in geemap/toolbar.py
def plotly_toolbar(
    canvas,
):
    """Creates the main toolbar and adds it to the map.

    Args:
        m (plotlymap.Map): The plotly Map object.
    """
    m = canvas.map
    map_min_width = canvas.map_min_width
    map_max_width = canvas.map_max_width
    map_refresh = canvas.map_refresh
    map_widget = canvas.map_widget

    if not map_refresh:
        width = int(map_min_width.replace("%", ""))
        if width > 90:
            map_min_width = "90%"

    tools = {
        "map": {
            "name": "basemap",
            "tooltip": "Change basemap",
        },
        "search": {
            "name": "search_xyz",
            "tooltip": "Search XYZ tile services",
        },
        "gears": {
            "name": "whitebox",
            "tooltip": "WhiteboxTools for local geoprocessing",
        },
        "folder-open": {
            "name": "vector",
            "tooltip": "Open local vector/raster data",
        },
        "picture-o": {
            "name": "raster",
            "tooltip": "Open COG/STAC dataset",
        },
        "question": {
            "name": "help",
            "tooltip": "Get help",
        },
    }

    icons = list(tools.keys())
    tooltips = [item["tooltip"] for item in list(tools.values())]

    icon_width = "32px"
    icon_height = "32px"
    n_cols = 3
    n_rows = math.ceil(len(icons) / n_cols)

    toolbar_grid = widgets.GridBox(
        children=[
            widgets.ToggleButton(
                layout=widgets.Layout(
                    width="auto", height="auto", padding="0px 0px 0px 4px"
                ),
                button_style="primary",
                icon=icons[i],
                tooltip=tooltips[i],
            )
            for i in range(len(icons))
        ],
        layout=widgets.Layout(
            width="115px",
            grid_template_columns=(icon_width + " ") * n_cols,
            grid_template_rows=(icon_height + " ") * n_rows,
            grid_gap="1px 1px",
            padding="5px",
        ),
    )
    canvas.toolbar = toolbar_grid

    def tool_callback(change):
        if change["new"]:
            current_tool = change["owner"]
            for tool in toolbar_grid.children:
                if tool is not current_tool:
                    tool.value = False
            tool = change["owner"]
            tool_name = tools[tool.icon]["name"]
            canvas.container_widget.children = []

            if tool_name == "basemap":
                plotly_basemap_gui(canvas)
            elif tool_name == "search_xyz":
                plotly_search_basemaps(canvas)
            elif tool_name == "whitebox":
                plotly_whitebox_gui(canvas)
            elif tool_name == "vector":
                plotly_tool_template(canvas)
            elif tool_name == "raster":
                plotly_tool_template(canvas)
            elif tool_name == "help":
                import webbrowser

                webbrowser.open_new_tab("https://geemap.org")
                tool.value = False
        else:
            canvas.container_widget.children = []
            map_widget.layout.width = map_max_width

    for tool in toolbar_grid.children:
        tool.observe(tool_callback, "value")

    toolbar_button = widgets.ToggleButton(
        value=False,
        tooltip="Toolbar",
        icon="wrench",
        layout=widgets.Layout(width="28px", height="28px", padding="0px 0px 0px 4px"),
    )
    canvas.toolbar_button = toolbar_button

    layers_button = widgets.ToggleButton(
        value=False,
        tooltip="Layers",
        icon="server",
        layout=widgets.Layout(height="28px", width="72px"),
    )
    canvas.layers_button = layers_button

    toolbar_widget = widgets.VBox(layout=widgets.Layout(overflow="hidden"))
    toolbar_widget.children = [toolbar_button]
    toolbar_header = widgets.HBox(layout=widgets.Layout(overflow="hidden"))
    toolbar_header.children = [layers_button, toolbar_button]
    toolbar_footer = widgets.VBox(layout=widgets.Layout(overflow="hidden"))
    toolbar_footer.children = [toolbar_grid]

    toolbar_event = ipyevents.Event(
        source=toolbar_widget, watched_events=["mouseenter", "mouseleave"]
    )

    def handle_toolbar_event(event):
        if event["type"] == "mouseenter":
            toolbar_widget.children = [toolbar_header, toolbar_footer]
            # map_widget.layout.width = "85%"
        elif event["type"] == "mouseleave":
            if not toolbar_button.value:
                toolbar_widget.children = [toolbar_button]
                toolbar_button.value = False
                layers_button.value = False
                # map_widget.layout.width = map_max_width

    toolbar_event.on_dom_event(handle_toolbar_event)

    def toolbar_btn_click(change):
        if change["new"]:
            map_widget.layout.width = map_min_width
            if map_refresh:
                with map_widget:
                    map_widget.outputs = ()
                    display(m)
            layers_button.value = False
            toolbar_widget.children = [toolbar_header, toolbar_footer]
        else:
            canvas.toolbar_reset()
            map_widget.layout.width = map_max_width
            if not layers_button.value:
                toolbar_widget.children = [toolbar_button]
            if map_refresh:
                with map_widget:
                    map_widget.outputs = ()
                    display(m)

    toolbar_button.observe(toolbar_btn_click, "value")

    def layers_btn_click(change):
        if change["new"]:
            layer_names = list(m.get_layers().keys())
            layers_hbox = []
            all_layers_chk = widgets.Checkbox(
                value=True,
                description="All layers on/off",
                indent=False,
                layout=widgets.Layout(height="18px", padding="0px 8px 25px 8px"),
            )
            all_layers_chk.layout.width = "30ex"
            layers_hbox.append(all_layers_chk)

            layer_chk_dict = {}

            for name in layer_names:
                if name in m.get_tile_layers():
                    index = m.find_layer_index(name)
                    layer = m.layout.mapbox.layers[index]
                elif name in m.get_data_layers():
                    index = m.find_layer_index(name)
                    layer = m.data[index]

                layer_chk = widgets.Checkbox(
                    value=layer.visible,
                    description=name,
                    indent=False,
                    layout=widgets.Layout(height="18px"),
                )
                layer_chk.layout.width = "25ex"
                layer_chk_dict[name] = layer_chk

                if hasattr(layer, "opacity"):
                    opacity = layer.opacity
                elif hasattr(layer, "marker"):
                    opacity = layer.marker.opacity
                else:
                    opacity = 1.0

                layer_opacity = widgets.FloatSlider(
                    value=opacity,
                    description_tooltip=name,
                    min=0,
                    max=1,
                    step=0.01,
                    readout=False,
                    layout=widgets.Layout(width="80px"),
                )

                layer_settings = widgets.ToggleButton(
                    icon="gear",
                    tooltip=name,
                    layout=widgets.Layout(
                        width="25px", height="25px", padding="0px 0px 0px 5px"
                    ),
                )

                def layer_chk_change(change):
                    if change["new"]:
                        m.set_layer_visibility(change["owner"].description, True)
                    else:
                        m.set_layer_visibility(change["owner"].description, False)

                layer_chk.observe(layer_chk_change, "value")

                def layer_opacity_change(change):
                    if change["new"]:
                        m.set_layer_opacity(
                            change["owner"].description_tooltip, change["new"]
                        )

                layer_opacity.observe(layer_opacity_change, "value")

                hbox = widgets.HBox(
                    [layer_chk, layer_settings, layer_opacity],
                    layout=widgets.Layout(padding="0px 8px 0px 8px"),
                )
                layers_hbox.append(hbox)

            def all_layers_chk_changed(change):
                if change["new"]:
                    for name in layer_names:
                        m.set_layer_visibility(name, True)
                        layer_chk_dict[name].value = True
                else:
                    for name in layer_names:
                        m.set_layer_visibility(name, False)
                        layer_chk_dict[name].value = False

            all_layers_chk.observe(all_layers_chk_changed, "value")

            toolbar_footer.children = layers_hbox
            toolbar_button.value = False
        else:
            toolbar_footer.children = [toolbar_grid]

    layers_button.observe(layers_btn_click, "value")

    return toolbar_widget

time_slider(m=None)

Creates a time slider for visualizing any ee.ImageCollection.

Parameters:

Name Type Description Default
m geemap.Map

A geemap Map instance. Defaults to None.

None

Returns:

Type Description
ipywidgets

The interactive GUI.

Source code in geemap/toolbar.py
def time_slider(m=None):
    """Creates a time slider for visualizing any ee.ImageCollection.

    Args:
        m (geemap.Map, optional): A geemap Map instance. Defaults to None.

    Returns:
        ipywidgets: The interactive GUI.
    """
    import matplotlib as mpl
    import matplotlib.pyplot as plt

    widget_width = "350px"
    padding = "0px 0px 0px 5px"  # upper, right, bottom, left
    style = {"description_width": "initial"}

    toolbar_button = widgets.ToggleButton(
        value=False,
        tooltip="Toolbar",
        icon="fast-forward",
        layout=widgets.Layout(width="28px", height="28px", padding="0px 0px 0px 4px"),
    )

    close_button = widgets.ToggleButton(
        value=False,
        tooltip="Close the tool",
        icon="times",
        button_style="primary",
        layout=widgets.Layout(height="28px", width="28px", padding="0px 0px 0px 4px"),
    )

    col_options_dict = {
        "Landsat TM-ETM-OLI Surface Reflectance": {
            "min": 0,
            "max": 4000,
            "bands": ["NIR", "Red", "Green"],
            "start_year": 1984,
            "end_year": 2021,
            "bandnames": ["Blue", "Green", "Red", "NIR", "SWIR1", "SWIR2", "pixel_qa"],
        },
        "MOD13A2.006 Terra Vegetation Indices": {
            "min": 0,
            "max": 9000,
            "start_year": 2000,
            "end_year": 2021,
            "palette": [
                "FFFFFF",
                "CE7E45",
                "DF923D",
                "F1B555",
                "FCD163",
                "99B718",
                "74A901",
                "66A000",
                "529400",
                "3E8601",
                "207401",
                "056201",
                "004C00",
                "023B01",
                "012E01",
                "011D01",
                "011301",
            ],
        },
        "Sentinel-2 Surface Relectance": {
            "min": 0,
            "max": 4000,
            "bands": ["NIR", "Red", "Green"],
            "start_year": 2015,
            "end_year": 2021,
            "bandnames": [
                "Blue",
                "Green",
                "Red",
                "Red Edge 1",
                "Red Edge 2",
                "Red Edge 3",
                "NIR",
                "Red Edge 4",
                "SWIR1",
                "SWIR2",
                "QA60",
            ],
        },
        "USDA NAIP Imagery": {
            "min": 0,
            "max": 255,
            "bands": ["R", "G", "B"],
            "start_year": 2003,
            "end_year": 2021,
            "bandnames": ["R", "G", "B", "N"],
        },
    }

    col_options = list(col_options_dict.keys())

    if m is not None:
        col_options += m.ee_raster_layers.keys()

    collection = widgets.Dropdown(
        options=col_options,
        value=col_options[0],
        description="Time series:",
        layout=widgets.Layout(width=widget_width, padding=padding),
        style=style,
    )

    region = widgets.Dropdown(
        options=["User-drawn ROI"] + list(m.ee_vector_layers.keys()),
        value="User-drawn ROI",
        description="Region:",
        layout=widgets.Layout(width=widget_width, padding=padding),
        style=style,
    )

    dropdown_width = "97px"
    landsat_bands = ["Blue", "Green", "Red", "NIR", "SWIR1", "SWIR2", "pixel_qa"]
    band1_dropdown = widgets.Dropdown(
        options=landsat_bands,
        value="NIR",
        layout=widgets.Layout(width=dropdown_width),
    )
    band2_dropdown = widgets.Dropdown(
        options=landsat_bands,
        value="Red",
        layout=widgets.Layout(width=dropdown_width),
    )
    band3_dropdown = widgets.Dropdown(
        options=landsat_bands,
        value="Green",
        layout=widgets.Layout(width=dropdown_width),
    )

    bands_label = widgets.Label("Bands:", layout=widgets.Layout(padding=padding))
    bands_hbox = widgets.HBox(
        [bands_label, band1_dropdown, band2_dropdown, band3_dropdown]
    )

    vis = widgets.Text(
        value="",
        description="Vis min value:",
        placeholder="{'min': 0, 'max': 1, 'palette': ['red', 'blue']}",
        style=style,
        layout=widgets.Layout(width=widget_width, padding=padding),
    )

    vis_min = widgets.Text(
        value="0",
        description="Vis min value:",
        style=style,
        layout=widgets.Layout(width="172px", padding=padding),
    )

    vis_max = widgets.Text(
        value="4000",
        description="Vis max value:",
        style=style,
        layout=widgets.Layout(width="172px", padding=padding),
    )

    opacity = widgets.FloatSlider(
        value=1,
        min=0,
        max=1,
        step=0.01,
        description="Opacity:",
        continuous_update=True,
        readout=False,
        readout_format=".2f",
        layout=widgets.Layout(width="130px", padding=padding),
        style={"description_width": "50px"},
    )

    opacity_label = widgets.Label(
        "1", layout=widgets.Layout(width="40px", padding=padding)
    )
    jslink_slider_label(opacity, opacity_label)

    gamma = widgets.FloatSlider(
        value=1,
        min=0.1,
        max=10,
        step=0.01,
        description="Gamma:",
        continuous_update=True,
        readout=False,
        readout_format=".2f",
        layout=widgets.Layout(width="123px", padding=padding),
        style={"description_width": "50px"},
    )

    gamma_label = widgets.Label(
        "1", layout=widgets.Layout(width="40px", padding=padding)
    )
    jslink_slider_label(gamma, gamma_label)

    color_picker = widgets.ColorPicker(
        concise=False,
        value="#000000",
        layout=widgets.Layout(width="97px"),
        style={"description_width": "initial"},
    )

    add_color = widgets.Button(
        icon="plus",
        tooltip="Add a hex color string to the palette",
        layout=widgets.Layout(width="32px"),
    )

    del_color = widgets.Button(
        icon="minus",
        tooltip="Remove a hex color string from the palette",
        layout=widgets.Layout(width="32px"),
    )

    reset_color = widgets.Button(
        icon="eraser",
        tooltip="Remove all color strings from the palette",
        layout=widgets.Layout(width="34px"),
    )

    classes = widgets.Dropdown(
        options=["Any"] + [str(i) for i in range(3, 13)],
        description="Classes:",
        layout=widgets.Layout(width="150px", padding=padding),
        style={"description_width": "initial"},
    )

    colormap = widgets.Dropdown(
        options=plt.colormaps(),
        value=None,
        description="Colormap:",
        layout=widgets.Layout(width="195px", padding=padding),
        style={"description_width": "initial"},
    )

    def classes_changed(change):
        if change["new"]:
            selected = change["owner"].value
            if colormap.value is not None:
                n_class = None
                if selected != "Any":
                    n_class = int(classes.value)

                try:
                    colors = plt.get_cmap(colormap.value, n_class)
                except:
                    colors = plt.cm.get_cmap(colormap.value, n_class)
                cmap_colors = [
                    mpl.colors.rgb2hex(colors(i))[1:] for i in range(colors.N)
                ]

                _, ax = plt.subplots(figsize=(6, 0.4))
                cmap = mpl.colors.LinearSegmentedColormap.from_list(
                    "custom", to_hex_colors(cmap_colors), N=256
                )

                vmin = 0
                vmax = 1
                try:
                    if vis_min.value != "":
                        vmin = float(vis_min.value)
                    if vis_max.value != "":
                        vmax = float(vis_max.value)
                except Exception as _:
                    pass

                norm = mpl.colors.Normalize(vmin=vmin, vmax=vmax)
                mpl.colorbar.ColorbarBase(
                    ax, norm=norm, cmap=cmap, orientation="horizontal"
                )

                palette.value = ", ".join([color for color in cmap_colors])

                if m._colorbar_widget is None:
                    m._colorbar_widget = widgets.Output(
                        layout=widgets.Layout(height="60px")
                    )

                if (not hasattr(m, "_colorbar_ctrl")) or (m._colorbar_ctrl is None):
                    m._colorbar_ctrl = ipyleaflet.WidgetControl(
                        widget=m._colorbar_widget, position="bottomright"
                    )
                    m.add_control(m._colorbar_ctrl)

                colorbar_output = m._colorbar_widget
                with colorbar_output:
                    colorbar_output.outputs = ()
                    plt.show()

    classes.observe(classes_changed, "value")

    palette = widgets.Text(
        value="",
        placeholder="",
        description="Palette:",
        tooltip="Enter a list of hex color code (RRGGBB)",
        layout=widgets.Layout(width="137px", padding=padding),
        style={"description_width": "initial"},
    )

    def add_color_clicked(b):
        if color_picker.value is not None:
            if len(palette.value) == 0:
                palette.value = color_picker.value[1:]
            else:
                palette.value += ", " + color_picker.value[1:]

    def del_color_clicked(b):
        if "," in palette.value:
            items = [item.strip() for item in palette.value.split(",")]
            palette.value = ", ".join(items[:-1])
        else:
            palette.value = ""

    def reset_color_clicked(b):
        palette.value = ""

    add_color.on_click(add_color_clicked)
    del_color.on_click(del_color_clicked)
    reset_color.on_click(reset_color_clicked)

    def colormap_changed(change):
        if change["new"]:
            n_class = None
            if classes.value != "Any":
                n_class = int(classes.value)

            try:
                colors = plt.get_cmap(colormap.value, n_class)
            except:
                colors = plt.cm.get_cmap(colormap.value, n_class)
            cmap_colors = [mpl.colors.rgb2hex(colors(i))[1:] for i in range(colors.N)]

            _, ax = plt.subplots(figsize=(6, 0.4))
            cmap = mpl.colors.LinearSegmentedColormap.from_list(
                "custom", to_hex_colors(cmap_colors), N=256
            )

            vmin = 0
            vmax = 1
            try:
                if vis_min.value != "":
                    vmin = float(vis_min.value)
                if vis_max.value != "":
                    vmax = float(vis_max.value)
            except Exception as _:
                pass

            norm = mpl.colors.Normalize(vmin=vmin, vmax=vmax)
            mpl.colorbar.ColorbarBase(
                ax, norm=norm, cmap=cmap, orientation="horizontal"
            )

            palette.value = ", ".join(cmap_colors)

            if m._colorbar_widget is None:
                m._colorbar_widget = widgets.Output(
                    layout=widgets.Layout(height="60px")
                )

            if hasattr(m, "_colorbar_ctrl") or (m._colorbar_ctrl is None):
                m._colorbar_ctrl = ipyleaflet.WidgetControl(
                    widget=m._colorbar_widget, position="bottomright"
                )
                m.add_control(m._colorbar_ctrl)

            colorbar_output = m._colorbar_widget
            with colorbar_output:
                colorbar_output.outputs = ()
                plt.show()

    colormap.observe(colormap_changed, "value")

    palette_vbox = widgets.VBox()

    labels = widgets.Text(
        value=", ".join([str(i) for i in range(1984, 2021)]),
        description="Labels:",
        style=style,
        layout=widgets.Layout(width="150px", padding=padding),
    )

    speed = widgets.FloatSlider(
        description="Speed (sec):",
        tooltip="Time interval in seconds",
        value=1,
        min=0.1,
        max=10,
        readout=False,
        style=style,
        layout=widgets.Layout(width="160px", padding=padding),
    )

    speed_label = widgets.Label(
        "1",
        layout=widgets.Layout(width="25px", padding=padding),
    )
    jslink_slider_label(speed, speed_label)

    prebuilt_options = widgets.VBox()

    cloud = widgets.Checkbox(
        value=True,
        description="Apply fmask (remove clouds, shadows, snow)",
        tooltip="Apply fmask (remove clouds, shadows, snow)",
        style=style,
    )

    current_year = get_current_year()

    start_year = widgets.IntSlider(
        description="Start Year:",
        value=1984,
        min=1984,
        max=current_year,
        readout=False,
        style=style,
        layout=widgets.Layout(width="138px", padding=padding),
    )

    def year_change(change):
        if change["new"]:
            if collection.value != "MOD13A2.006 Terra Vegetation Indices":
                labels.value = ", ".join(
                    str(i)
                    for i in range(int(start_year.value), int(end_year.value) + 1)
                )
            else:
                modis_labels = []
                for i in range(int(start_year.value), int(end_year.value) + 1):
                    for j in range(1, 13):
                        modis_labels.append(str(i) + "-" + str(j).zfill(2))
                labels.value = ", ".join(modis_labels)

    start_year.observe(year_change, "value")

    start_year_label = widgets.Label("1984")
    jslink_slider_label(start_year, start_year_label)

    end_year = widgets.IntSlider(
        description="End Year:",
        value=2020,
        min=1984,
        max=current_year,
        readout=False,
        style=style,
        layout=widgets.Layout(width="138px", padding=padding),
    )

    end_year.observe(year_change, "value")

    end_year_label = widgets.Label(str(current_year))
    jslink_slider_label(end_year, end_year_label)

    start_month = widgets.IntSlider(
        description="Start Month:",
        value=1,
        min=1,
        max=12,
        readout=False,
        style=style,
        layout=widgets.Layout(width="145px", padding=padding),
    )

    start_month_label = widgets.Label(
        "1",
        layout=widgets.Layout(width="20px", padding=padding),
    )
    jslink_slider_label(start_month, start_month_label)

    end_month = widgets.IntSlider(
        description="End Month:",
        value=12,
        min=1,
        max=12,
        readout=False,
        style=style,
        layout=widgets.Layout(width="155px", padding=padding),
    )

    end_month_label = widgets.Label("12")
    jslink_slider_label(end_month, end_month_label)

    prebuilt_options.children = [
        widgets.HBox([start_year, start_year_label, end_year, end_year_label]),
        widgets.HBox([start_month, start_month_label, end_month, end_month_label]),
        cloud,
    ]

    button_width = "113px"
    apply_btn = widgets.Button(
        description="Apply",
        button_style="primary",
        tooltip="Apply the settings to activate the time slider",
        style=style,
        layout=widgets.Layout(padding="0px", width=button_width),
    )

    def submit_clicked(b):
        output.outputs = ()
        with output:
            if start_year.value > end_year.value:
                print("The end year must be great than the start year.")
                return
            if start_month.value > end_month.value:
                print("The end month must be great than the start month.")
                return

        if m is not None:
            roi = None
            if region.value == "User-drawn ROI" and (m.user_roi is not None):
                roi = m.user_roi
            elif region.value == "User-drawn ROI" and (m.user_roi is None):
                with output:
                    print("Use the Drawing tool to create an ROI.")
                    return
            elif region.value in m.ee_layers:
                roi = m.ee_layers[region.value]["ee_object"]

            with output:
                print("Computing... Please wait...")

            layer_labels = None
            vis_params = {}

            try:
                if vis_min.value != "":
                    vis_params["min"] = float(vis_min.value)

                if vis_max.value != "":
                    vis_params["max"] = float(vis_max.value)

                vis_params["opacity"] = float(opacity.value)

                if len(bands_hbox.children) > 0 and (
                    band1_dropdown.value
                    and band2_dropdown.value
                    and band3_dropdown.value
                ):
                    vis_params["bands"] = [
                        band1_dropdown.value,
                        band2_dropdown.value,
                        band3_dropdown.value,
                    ]
                    vis_params["gamma"] = float(gamma.value)

                if len(palette_vbox.children) > 0:
                    if "," in palette.value:
                        vis_params["palette"] = [
                            i.strip() for i in palette.value.split(",")
                        ]
                    elif len(palette.value) > 0:
                        vis_params["palette"] = palette.value.strip()

            except Exception as _:
                with output:
                    print("The vis params are invalid.")
                    return

            if labels.value != "" and "," in labels.value:
                try:
                    layer_labels = [i.strip() for i in labels.value.split(",")]
                except Exception as e:
                    raise ValueError(e)

            if collection.value in m.ee_raster_layers:
                layer = m.ee_layers[collection.value]
                ee_object = layer["ee_object"]
            elif collection.value in col_options_dict:
                start_date = str(start_month.value).zfill(2) + "-01"
                end_date = str(end_month.value).zfill(2) + "-30"

                if collection.value == "Landsat TM-ETM-OLI Surface Reflectance":
                    ee_object = landsat_timeseries(
                        roi,
                        int(start_year.value),
                        int(end_year.value),
                        start_date,
                        end_date,
                        cloud.value,
                    )
                elif collection.value == "MOD13A2.006 Terra Vegetation Indices":
                    ee_object = modis_timeseries(
                        roi=roi,
                        start_year=int(start_year.value),
                        end_year=int(end_year.value),
                        start_date=start_date,
                        end_date=end_date,
                    )

                elif collection.value == "Sentinel-2 Surface Relectance":
                    ee_object = sentinel2_timeseries(
                        roi,
                        int(start_year.value),
                        int(end_year.value),
                        start_date,
                        end_date,
                        cloud.value,
                    )
                elif collection.value == "USDA NAIP Imagery":
                    if int(start_year.value) < 2009 and (
                        band1_dropdown.value == "N"
                        or band2_dropdown.value == "N"
                        or band3_dropdown.value == "N"
                    ):
                        with output:
                            output.outputs = ()
                            print("4-band NAIP imagery not available before 2009.")
                            return

                    ee_object = naip_timeseries(roi, start_year.value, end_year.value)

            m.add_time_slider(
                ee_object,
                region=roi,
                vis_params=vis_params,
                labels=layer_labels,
                time_interval=speed.value,
            )

            output.outputs = ()

            if hasattr(m, "_colorbar_ctrl") and (m._colorbar_ctrl is not None):
                m.remove_control(m._colorbar_ctrl)
                m._colorbar_ctrl = None

    apply_btn.on_click(submit_clicked)

    reset_btn = widgets.Button(
        description="Reset",
        button_style="primary",
        style=style,
        layout=widgets.Layout(padding="0px", width=button_width),
    )

    def reset_btn_click(change):
        output.outputs = ()
        collection.value = col_options[0]
        region.value = "User-drawn ROI"
        vis.value = ""
        labels.value = "1, 2, 3"
        speed.value = 1

        if hasattr(m, "_colorbar_ctrl") and (m._colorbar_ctrl is not None):
            m.remove_control(m._colorbar_ctrl)
            m._colorbar_ctrl = None

    reset_btn.on_click(reset_btn_click)

    close_btn = widgets.Button(
        description="Close",
        button_style="primary",
        style=style,
        layout=widgets.Layout(padding="0px", width=button_width),
    )

    def cleanup():
        toolbar_button.value = False
        if m is not None:
            if m.tool_control is not None and m.tool_control in m.controls:
                m.remove_control(m.tool_control)
                m.tool_control = None
        toolbar_widget.close()

        if hasattr(m, "_colorbar_ctrl") and (m._colorbar_ctrl is not None):
            m.remove_control(m._colorbar_ctrl)
            m._colorbar_ctrl = None

    def close_btn_click(change):
        if change["new"]:
            m.tool_control.cleanup()

    close_button.observe(close_btn_click, "value")

    def collection_changed(change):
        if change["new"]:
            selected = change["owner"].value
            if selected in m.ee_layers:
                prebuilt_options.children = []
                labels.value = ""
                region.value = None

                ee_object = m.ee_layers[selected]["ee_object"]
                vis_params = m.ee_layers[selected]["vis_params"]
                if isinstance(ee_object, ee.Image):
                    palette_vbox.children = [
                        widgets.HBox([classes, colormap]),
                        widgets.HBox(
                            [palette, color_picker, add_color, del_color, reset_color]
                        ),
                    ]
                    bands_hbox.children = []

                elif isinstance(ee_object, ee.ImageCollection):
                    first = ee.Image(ee_object.first())
                    band_names = first.bandNames().getInfo()
                    band_count = len(band_names)

                    if band_count > 2:
                        band1_dropdown.options = band_names
                        band2_dropdown.options = band_names
                        band3_dropdown.options = band_names

                        band1_dropdown.value = band_names[2]
                        band2_dropdown.value = band_names[1]
                        band3_dropdown.value = band_names[0]

                        palette_vbox.children = []
                        bands_hbox.children = [
                            bands_label,
                            band1_dropdown,
                            band2_dropdown,
                            band3_dropdown,
                        ]

                    else:
                        palette_vbox.children = [
                            widgets.HBox([classes, colormap]),
                            widgets.HBox(
                                [
                                    palette,
                                    color_picker,
                                    add_color,
                                    del_color,
                                    reset_color,
                                ]
                            ),
                        ]
                        bands_hbox.children = []

                if "min" in vis_params:
                    vis_min.value = str(vis_params["min"])
                if "max" in vis_params:
                    vis_max.value = str(vis_params["max"])
                if "opacity" in vis_params:
                    opacity.value = str(vis_params["opacity"])
                if "gamma" in vis_params:
                    if isinstance(vis_params["gamma"], list):
                        gamma.value = str(vis_params["gamma"][0])
                    else:
                        gamma.value = str(vis_params["gamma"])
                if "palette" in vis_params:
                    palette.value = ", ".join(vis_params["palette"])

            else:
                prebuilt_options.children = [
                    widgets.HBox(
                        [start_year, start_year_label, end_year, end_year_label]
                    ),
                    widgets.HBox(
                        [start_month, start_month_label, end_month, end_month_label]
                    ),
                    cloud,
                ]

                if selected == "MOD13A2.006 Terra Vegetation Indices":
                    palette_vbox.children = [
                        widgets.HBox([classes, colormap]),
                        widgets.HBox(
                            [
                                palette,
                                color_picker,
                                add_color,
                                del_color,
                                reset_color,
                            ]
                        ),
                    ]
                    bands_hbox.children = []

                    palette.value = ", ".join(col_options_dict[selected]["palette"])
                    modis_labels = []
                    for i in range(int(start_year.value), int(end_year.value) + 1):
                        for j in range(1, 13):
                            modis_labels.append(str(i) + "-" + str(j).zfill(2))
                    labels.value = ", ".join(modis_labels)

                else:
                    bands_hbox.children = [
                        bands_label,
                        band1_dropdown,
                        band2_dropdown,
                        band3_dropdown,
                    ]

                    bandnames = col_options_dict[selected]["bandnames"]
                    band1_dropdown.options = bandnames
                    band2_dropdown.options = bandnames
                    band3_dropdown.options = bandnames

                if (
                    selected == "Landsat TM-ETM-OLI Surface Reflectance"
                    or selected == "Sentinel-2 Surface Relectance"
                ):
                    band1_dropdown.value = bandnames[2]
                    band2_dropdown.value = bandnames[1]
                    band3_dropdown.value = bandnames[0]
                    palette_vbox.children = []
                elif selected == "USDA NAIP Imagery":
                    band1_dropdown.value = bandnames[0]
                    band2_dropdown.value = bandnames[1]
                    band3_dropdown.value = bandnames[2]
                    palette_vbox.children = []

                labels.value = ", ".join(
                    str(i)
                    for i in range(int(start_year.value), int(end_year.value) + 1)
                )

                start_year.min = col_options_dict[selected]["start_year"]
                start_year.max = col_options_dict[selected]["end_year"]
                start_year.value = start_year.min
                end_year.min = col_options_dict[selected]["start_year"]
                end_year.max = col_options_dict[selected]["end_year"]
                end_year.value = end_year.max
                vis_min.value = str(col_options_dict[selected]["min"])
                vis_max.value = str(col_options_dict[selected]["max"])

                if selected == "MOD13A2.006 Terra Vegetation Indices":
                    start_year.value = "2001"
                    end_year.value = "2020"
                elif selected == "USDA NAIP Imagery":
                    start_year.value = "2009"
                    end_year.value = "2019"

    collection.observe(collection_changed, "value")

    output = widgets.Output(layout=widgets.Layout(width=widget_width, padding=padding))

    toolbar_widget = widgets.VBox()
    toolbar_widget.children = [toolbar_button]
    toolbar_header = widgets.HBox()
    toolbar_header.children = [close_button, toolbar_button]
    toolbar_footer = widgets.VBox()
    toolbar_footer.children = [
        collection,
        region,
        bands_hbox,
        widgets.HBox([vis_min, vis_max]),
        widgets.HBox([opacity, opacity_label, gamma, gamma_label]),
        palette_vbox,
        widgets.HBox([labels, speed, speed_label]),
        prebuilt_options,
        widgets.HBox([apply_btn, reset_btn, close_btn]),
        output,
    ]

    toolbar_event = ipyevents.Event(
        source=toolbar_widget, watched_events=["mouseenter", "mouseleave"]
    )

    def handle_toolbar_event(event):
        if event["type"] == "mouseenter":
            toolbar_widget.children = [toolbar_header, toolbar_footer]
        elif event["type"] == "mouseleave":
            if not toolbar_button.value:
                toolbar_widget.children = [toolbar_button]
                toolbar_button.value = False
                close_button.value = False

    toolbar_event.on_dom_event(handle_toolbar_event)

    def toolbar_btn_click(change):
        if change["new"]:
            close_button.value = False
            toolbar_widget.children = [toolbar_header, toolbar_footer]
        else:
            if not close_button.value:
                toolbar_widget.children = [toolbar_button]

    toolbar_button.observe(toolbar_btn_click, "value")

    toolbar_button.value = True
    if m is not None:
        toolbar_control = ipyleaflet.WidgetControl(
            widget=toolbar_widget, position="topright"
        )
        toolbar_control.cleanup = cleanup

        if toolbar_control not in m.controls:
            m.add_control(toolbar_control)
            m.tool_control = toolbar_control
    else:
        return toolbar_widget

timelapse_gui(m=None, basemap='HYBRID')

Creates timelapse animations.

Parameters:

Name Type Description Default
m geemap.Map

A geemap Map instance. Defaults to None.

None
basemap str

The basemap to use. Defaults to "HYBRID".

'HYBRID'

Returns:

Type Description
ipywidgets

The interactive GUI.

Source code in geemap/toolbar.py
def timelapse_gui(m=None, basemap="HYBRID"):
    """Creates timelapse animations.

    Args:
        m (geemap.Map, optional): A geemap Map instance. Defaults to None.
        basemap (str, optional): The basemap to use. Defaults to "HYBRID".

    Returns:
        ipywidgets: The interactive GUI.
    """
    if m is not None and (basemap is not None):
        m.add_basemap(basemap)

    widget_width = "350px"
    padding = "0px 0px 0px 5px"  # upper, right, bottom, left
    style = {"description_width": "initial"}

    current_year = get_current_year()

    toolbar_button = widgets.ToggleButton(
        value=False,
        tooltip="Toolbar",
        icon="gear",
        layout=widgets.Layout(width="28px", height="28px", padding="0px 0px 0px 4px"),
    )

    close_button = widgets.ToggleButton(
        value=False,
        tooltip="Close the tool",
        icon="times",
        button_style="primary",
        layout=widgets.Layout(height="28px", width="28px", padding="0px 0px 0px 4px"),
    )

    collection = widgets.Dropdown(
        options=[
            "Landsat TM-ETM-OLI Surface Reflectance",
        ],
        value="Landsat TM-ETM-OLI Surface Reflectance",
        description="Collection:",
        layout=widgets.Layout(width=widget_width, padding=padding),
        style=style,
    )

    title = widgets.Text(
        value="Timelapse",
        description="Title:",
        style=style,
        layout=widgets.Layout(width="181px", padding=padding),
    )

    bands = widgets.Dropdown(
        description="RGB:",
        options=[
            "Red/Green/Blue",
            "NIR/Red/Green",
            "SWIR2/SWIR1/NIR",
            "NIR/SWIR1/Red",
            "SWIR2/NIR/Red",
            "SWIR2/SWIR1/Red",
            "SWIR1/NIR/Blue",
            "NIR/SWIR1/Blue",
            "SWIR2/NIR/Green",
            "SWIR1/NIR/Red",
        ],
        value="SWIR1/NIR/Red",
        style=style,
        layout=widgets.Layout(width="165px", padding=padding),
    )

    speed = widgets.IntSlider(
        description="Frames/sec:",
        tooltip="Frames per second",
        value=10,
        min=1,
        max=30,
        readout=False,
        style=style,
        layout=widgets.Layout(width="142px", padding=padding),
    )

    speed_label = widgets.Label(
        "10",
        layout=widgets.Layout(width="20px", padding=padding),
    )
    jslink_slider_label(speed, speed_label)

    cloud = widgets.Checkbox(
        value=True,
        description="Apply fmask (remove clouds, shadows, snow)",
        tooltip="Apply fmask (remove clouds, shadows, snow)",
        style=style,
    )

    start_year = widgets.IntSlider(
        description="Start Year:",
        value=1984,
        min=1984,
        max=current_year,
        readout=False,
        style=style,
        layout=widgets.Layout(width="138px", padding=padding),
    )

    start_year_label = widgets.Label("1984")
    jslink_slider_label(start_year, start_year_label)

    end_year = widgets.IntSlider(
        description="End Year:",
        value=current_year,
        min=1984,
        max=current_year,
        readout=False,
        style=style,
        layout=widgets.Layout(width="138px", padding=padding),
    )
    end_year_label = widgets.Label(str(current_year))
    jslink_slider_label(end_year, end_year_label)

    start_month = widgets.IntSlider(
        description="Start Month:",
        value=5,
        min=1,
        max=12,
        readout=False,
        style=style,
        layout=widgets.Layout(width="145px", padding=padding),
    )

    start_month_label = widgets.Label(
        "5",
        layout=widgets.Layout(width="20px", padding=padding),
    )
    jslink_slider_label(start_month, start_month_label)

    end_month = widgets.IntSlider(
        description="End Month:",
        value=10,
        min=1,
        max=12,
        readout=False,
        style=style,
        layout=widgets.Layout(width="155px", padding=padding),
    )

    end_month_label = widgets.Label("10")
    jslink_slider_label(end_month, end_month_label)

    font_size = widgets.IntSlider(
        description="Font size:",
        value=30,
        min=10,
        max=50,
        readout=False,
        style=style,
        layout=widgets.Layout(width="152px", padding=padding),
    )

    font_size_label = widgets.Label("30")
    jslink_slider_label(font_size, font_size_label)

    font_color = widgets.ColorPicker(
        concise=False,
        description="Font color:",
        value="white",
        style=style,
        layout=widgets.Layout(width="170px", padding=padding),
    )

    progress_bar_color = widgets.ColorPicker(
        concise=False,
        description="Progress bar:",
        value="blue",
        style=style,
        layout=widgets.Layout(width="180px", padding=padding),
    )

    # Normalized Satellite Indices: https://www.usna.edu/Users/oceano/pguth/md_help/html/norm_sat.htm

    nd_options = [
        "Vegetation Index (NDVI)",
        "Water Index (NDWI)",
        "Modified Water Index (MNDWI)",
        "Snow Index (NDSI)",
        "Soil Index (NDSI)",
        "Burn Ratio (NBR)",
        "Customized",
    ]
    nd_indices = widgets.Dropdown(
        options=nd_options,
        value=None,
        description="Normalized Difference Index:",
        style=style,
        layout=widgets.Layout(width="347px", padding=padding),
    )

    first_band = widgets.Dropdown(
        description="1st band:",
        options=["Blue", "Green", "Red", "NIR", "SWIR1", "SWIR2"],
        value=None,
        style=style,
        layout=widgets.Layout(width="171px", padding=padding),
    )

    second_band = widgets.Dropdown(
        description="2nd band:",
        options=["Blue", "Green", "Red", "NIR", "SWIR1", "SWIR2"],
        value=None,
        style=style,
        layout=widgets.Layout(width="172px", padding=padding),
    )

    nd_threshold = widgets.FloatSlider(
        value=0,
        min=-1,
        max=1,
        step=0.01,
        description="Threshold:",
        orientation="horizontal",
        readout=False,
        style=style,
        layout=widgets.Layout(width="159px", padding=padding),
    )

    nd_threshold_label = widgets.Label(
        "0",
        layout=widgets.Layout(width="35px", padding=padding),
    )
    jslink_slider_label(nd_threshold, nd_threshold_label)

    nd_color = widgets.ColorPicker(
        concise=False,
        description="Color:",
        value="blue",
        style=style,
        layout=widgets.Layout(width="145px", padding=padding),
    )

    def nd_index_change(change):
        if nd_indices.value == "Vegetation Index (NDVI)":
            first_band.value = "NIR"
            second_band.value = "Red"
        elif nd_indices.value == "Water Index (NDWI)":
            first_band.value = "Green"
            second_band.value = "NIR"
        elif nd_indices.value == "Modified Water Index (MNDWI)":
            first_band.value = "Green"
            second_band.value = "SWIR1"
        elif nd_indices.value == "Snow Index (NDSI)":
            first_band.value = "Green"
            second_band.value = "SWIR1"
        elif nd_indices.value == "Soil Index (NDSI)":
            first_band.value = "SWIR1"
            second_band.value = "NIR"
        elif nd_indices.value == "Burn Ratio (NBR)":
            first_band.value = "NIR"
            second_band.value = "SWIR2"
        elif nd_indices.value == "Customized":
            first_band.value = None
            second_band.value = None

    nd_indices.observe(nd_index_change, names="value")

    button_width = "113px"
    create_gif = widgets.Button(
        description="Create timelapse",
        button_style="primary",
        tooltip="Click to create timelapse",
        style=style,
        layout=widgets.Layout(padding="0px", width=button_width),
    )

    def submit_clicked(b):
        if start_year.value > end_year.value:
            print("The end year must be great than the start year.")
            return
        if start_month.value > end_month.value:
            print("The end month must be great than the start month.")
            return
        if start_year.value == end_year.value:
            add_progress_bar = False
        else:
            add_progress_bar = True

        start_date = str(start_month.value).zfill(2) + "-01"
        end_date = str(end_month.value).zfill(2) + "-30"

        with output:
            output.clear_output()
            message = "Computing... Please wait..."
            if os.environ.get("EE_SOLARA", None) is None:
                output.append_stdout(message)
            else:
                print(message)

        nd_bands = None
        if (first_band.value is not None) and (second_band.value is not None):
            nd_bands = [first_band.value, second_band.value]

        temp_output = widgets.Output()

        if m is not None:
            m.default_style = {"cursor": "wait"}
            out_dir = get_temp_dir()
            out_gif = os.path.join(out_dir, "timelapse_" + random_string(3) + ".gif")

            with temp_output:
                temp_output.outputs = ()

                if m.find_layer("Timelapse") is not None:
                    m.remove(m.find_layer("Timelapse"))
                if m.find_layer("Timelapse ND") is not None:
                    m.remove(m.find_layer("Timelapse ND"))

                m.add_landsat_ts_gif(
                    roi=m.user_roi,
                    label=title.value,
                    start_year=start_year.value,
                    end_year=end_year.value,
                    start_date=start_date,
                    end_date=end_date,
                    bands=bands.value.split("/"),
                    font_color=font_color.value,
                    frames_per_second=speed.value,
                    font_size=font_size.value,
                    add_progress_bar=add_progress_bar,
                    progress_bar_color=progress_bar_color.value,
                    out_gif=out_gif,
                    apply_fmask=cloud.value,
                    nd_bands=nd_bands,
                    nd_threshold=nd_threshold.value,
                    nd_palette=["black", nd_color.value],
                )
                if m.user_roi is not None:
                    m.centerObject(m.user_roi)

            with output:
                output.clear_output()
                if os.path.exists(out_gif):
                    link = create_download_link(
                        out_gif,
                        title="Click here to download: ",
                    )
                    display(link)
                    if nd_bands is not None:
                        link_nd = create_download_link(
                            out_gif.replace(".gif", "_nd.gif"),
                            title="Click here to download: ",
                        )
                        display(link_nd)

            m.default_style = {"cursor": "default"}

    create_gif.on_click(submit_clicked)

    reset_btn = widgets.Button(
        description="Reset",
        button_style="primary",
        style=style,
        layout=widgets.Layout(padding="0px", width=button_width),
    )

    def reset_btn_click(change):
        output.outputs = ()

    reset_btn.on_click(reset_btn_click)

    close_btn = widgets.Button(
        description="Close",
        button_style="primary",
        style=style,
        layout=widgets.Layout(padding="0px", width=button_width),
    )

    output = widgets.Output(layout=widgets.Layout(width=widget_width, padding=padding))

    toolbar_widget = widgets.VBox()
    toolbar_widget.children = [toolbar_button]
    toolbar_header = widgets.HBox()
    toolbar_header.children = [close_button, toolbar_button]
    toolbar_footer = widgets.VBox()
    toolbar_footer.children = [
        collection,
        widgets.HBox([title, bands]),
        widgets.HBox([speed, speed_label, progress_bar_color]),
        widgets.HBox([start_year, start_year_label, end_year, end_year_label]),
        widgets.HBox([start_month, start_month_label, end_month, end_month_label]),
        widgets.HBox([font_size, font_size_label, font_color]),
        cloud,
        nd_indices,
        widgets.HBox([first_band, second_band]),
        widgets.HBox([nd_threshold, nd_threshold_label, nd_color]),
        widgets.HBox([create_gif, reset_btn, close_btn]),
        output,
    ]

    toolbar_event = ipyevents.Event(
        source=toolbar_widget, watched_events=["mouseenter", "mouseleave"]
    )

    def handle_toolbar_event(event):
        if event["type"] == "mouseenter":
            toolbar_widget.children = [toolbar_header, toolbar_footer]
        elif event["type"] == "mouseleave":
            if not toolbar_button.value:
                toolbar_widget.children = [toolbar_button]
                toolbar_button.value = False
                close_button.value = False

    toolbar_event.on_dom_event(handle_toolbar_event)

    def toolbar_btn_click(change):
        if change["new"]:
            close_button.value = False
            toolbar_widget.children = [toolbar_header, toolbar_footer]
        else:
            if not close_button.value:
                toolbar_widget.children = [toolbar_button]

    toolbar_button.observe(toolbar_btn_click, "value")

    def cleanup():
        if m is not None:
            if m.tool_control is not None and m.tool_control in m.controls:
                m.remove_control(m.tool_control)
                m.tool_control = None
        toolbar_widget.close()

    def close_btn_click(change):
        if change["new"]:
            m.tool_control.cleanup()

    close_btn.on_click(lambda _: m.tool_control.cleanup())
    close_button.observe(close_btn_click, "value")

    toolbar_button.value = True
    if m is not None:
        toolbar_control = ipyleaflet.WidgetControl(
            widget=toolbar_widget, position="topright"
        )
        toolbar_control.cleanup = cleanup
        if toolbar_control not in m.controls:
            m.add_control(toolbar_control)
            m.tool_control = toolbar_control
    else:
        return toolbar_widget

tool_gui(tool_dict, max_width='420px', max_height='600px')

Create a GUI for a tool based on the tool dictionary.

Parameters:

Name Type Description Default
tool_dict dict

The dictionary containing the tool info.

required
max_width str

The max width of the tool dialog.

'420px'
max_height str

The max height of the tool dialog.

'600px'

Returns:

Type Description
object

An ipywidget object representing the tool interface.

Source code in geemap/toolbar.py
def tool_gui(tool_dict, max_width="420px", max_height="600px"):
    """Create a GUI for a tool based on the tool dictionary.

    Args:
        tool_dict (dict): The dictionary containing the tool info.
        max_width (str, optional): The max width of the tool dialog.
        max_height (str, optional): The max height of the tool dialog.

    Returns:
        object: An ipywidget object representing the tool interface.
    """
    tool_widget = widgets.VBox(
        layout=widgets.Layout(max_width=max_width, max_height=max_height)
    )
    children = []
    args = {}
    required_inputs = []
    style = {"description_width": "initial"}
    max_width = str(int(max_width.replace("px", "")) - 10) + "px"

    header_width = str(int(max_width.replace("px", "")) - 104) + "px"
    header = widgets.Label(
        value=f'Current Tool: {tool_dict["label"]}',
        style=style,
        layout=widgets.Layout(width=header_width),
    )
    code_btn = widgets.Button(
        description="View Code", layout=widgets.Layout(width="100px")
    )

    children.append(widgets.HBox([header, code_btn]))

    desc = widgets.Textarea(
        value=f'Description: {tool_dict["description"]}',
        layout=widgets.Layout(width="410px", max_width=max_width),
        disabled=True,
    )
    children.append(desc)

    run_btn = widgets.Button(description="Run", layout=widgets.Layout(width="100px"))
    cancel_btn = widgets.Button(
        description="Cancel", layout=widgets.Layout(width="100px")
    )
    help_btn = widgets.Button(description="Help", layout=widgets.Layout(width="100px"))
    import_btn = widgets.Button(
        description="Import",
        tooltip="Import the script to a new cell",
        layout=widgets.Layout(width="98px"),
    )
    tool_output = widgets.Output(layout=widgets.Layout(max_height="200px"))
    children.append(widgets.HBox([run_btn, cancel_btn, help_btn, import_btn]))
    children.append(tool_output)
    tool_widget.children = children

    def run_button_clicked(b):
        tool_output.outputs = ()

        required_params = required_inputs.copy()
        args2 = []
        for arg in args:
            line = ""
            if isinstance(args[arg], FileChooser):
                if arg in required_params and args[arg].selected is None:
                    with tool_output:
                        print(f"Please provide inputs for required parameters.")
                        break
                elif arg in required_params:
                    required_params.remove(arg)
                if arg == "i":
                    line = f"-{arg}={args[arg].selected}"
                else:
                    line = f"--{arg}={args[arg].selected}"
            elif isinstance(args[arg], widgets.Text):
                if arg in required_params and len(args[arg].value) == 0:
                    with tool_output:
                        print(f"Please provide inputs for required parameters.")
                        break
                elif arg in required_params:
                    required_params.remove(arg)
                if args[arg].value is not None and len(args[arg].value) > 0:
                    line = f"--{arg}={args[arg].value}"
            elif isinstance(args[arg], widgets.Checkbox):
                line = f"--{arg}={args[arg].value}"
            args2.append(line)

        if len(required_params) == 0:
            with tool_output:
                # wbt.run_tool(tool_dict["name"], args2)
                pass

    def help_button_clicked(b):
        import webbrowser

        tool_output.outputs = ()
        with tool_output:
            html = widgets.HTML(
                value=f'<a href={tool_dict["link"]} target="_blank">{tool_dict["link"]}</a>'
            )
            display(html)
        webbrowser.open_new_tab(tool_dict["link"])

    def code_button_clicked(b):
        import webbrowser

        with tool_output:
            html = widgets.HTML(
                value=f'<a href={tool_dict["link"]} target="_blank">{tool_dict["link"]}</a>'
            )
            display(html)
        webbrowser.open_new_tab(tool_dict["link"])

    def cancel_btn_clicked(b):
        tool_output.outputs = ()

    def import_button_clicked(b):
        tool_output.outputs = ()

        content = []

        create_code_cell("\n".join(content))

    import_btn.on_click(import_button_clicked)
    run_btn.on_click(run_button_clicked)
    help_btn.on_click(help_button_clicked)
    code_btn.on_click(code_button_clicked)
    cancel_btn.on_click(cancel_btn_clicked)

    return tool_widget

tool_header_template(m=None, opened=True, show_close_button=True)

Create a toolbar widget.

Parameters:

Name Type Description Default
m geemap.Map

The geemap.Map instance. Defaults to None.

None
opened bool

Whether to open the toolbar. Defaults to True.

True
show_close_button bool

Whether to show the close button. Defaults to True.

True
Source code in geemap/toolbar.py
def tool_header_template(m=None, opened=True, show_close_button=True):
    """Create a toolbar widget.

    Args:
        m (geemap.Map, optional): The geemap.Map instance. Defaults to None.
        opened (bool, optional): Whether to open the toolbar. Defaults to True.
        show_close_button (bool, optional): Whether to show the close button. Defaults to True.
    """

    widget_width = "250px"
    padding = "0px 0px 0px 5px"  # upper, right, bottom, left

    toolbar_button = widgets.ToggleButton(
        value=False,
        tooltip="Toolbar",
        icon="gear",
        layout=widgets.Layout(width="28px", height="28px", padding="0px 0px 0px 4px"),
    )

    close_button = widgets.ToggleButton(
        value=False,
        tooltip="Close the tool",
        icon="times",
        button_style="primary",
        layout=widgets.Layout(height="28px", width="28px", padding="0px 0px 0px 4px"),
    )

    buttons = widgets.ToggleButtons(
        value=None,
        options=["Apply", "Reset", "Close"],
        tooltips=["Apply", "Reset", "Close"],
        button_style="primary",
    )
    buttons.style.button_width = "80px"

    output = widgets.Output(layout=widgets.Layout(width=widget_width, padding=padding))

    toolbar_widget = widgets.VBox()
    toolbar_widget.children = [toolbar_button]
    toolbar_header = widgets.HBox()
    if show_close_button:
        toolbar_header.children = [close_button, toolbar_button]
    else:
        toolbar_header.children = [toolbar_button]
    toolbar_footer = widgets.VBox()
    toolbar_footer.children = [
        buttons,
        output,
    ]

    def toolbar_btn_click(change):
        if change["new"]:
            close_button.value = False
            toolbar_widget.children = [toolbar_header, toolbar_footer]
        else:
            if not close_button.value:
                toolbar_widget.children = [toolbar_button]

    toolbar_button.observe(toolbar_btn_click, "value")

    def close_btn_click(change):
        if change["new"]:
            toolbar_button.value = False
            if m is not None:
                m.toolbar_reset()
                if m.tool_control is not None and m.tool_control in m.controls:
                    m.remove_control(m.tool_control)
                    m.tool_control = None
            toolbar_widget.close()

    close_button.observe(close_btn_click, "value")

    def button_clicked(change):
        if change["new"] == "Apply":
            with output:
                output.outputs = ()
                print("Running ...")
        elif change["new"] == "Reset":
            output.outputs = ()
        elif change["new"] == "Close":
            if m is not None:
                m.toolbar_reset()
                if m.tool_control is not None and m.tool_control in m.controls:
                    m.remove_control(m.tool_control)
                    m.tool_control = None
            toolbar_widget.close()

        buttons.value = None

    buttons.observe(button_clicked, "value")

    toolbar_button.value = opened
    if m is not None:
        toolbar_control = ipyleaflet.WidgetControl(
            widget=toolbar_widget, position="topright"
        )

        if toolbar_control not in m.controls:
            m.add_control(toolbar_control)
            m.tool_control = toolbar_control
    else:
        return toolbar_widget

tool_template(m=None, opened=True)

Create a toolbar widget.

Parameters:

Name Type Description Default
m geemap.Map

The geemap.Map instance. Defaults to None.

None
opened bool

Whether to open the toolbar. Defaults to True.

True
Source code in geemap/toolbar.py
def tool_template(m=None, opened=True):
    """Create a toolbar widget.

    Args:
        m (geemap.Map, optional): The geemap.Map instance. Defaults to None.
        opened (bool, optional): Whether to open the toolbar. Defaults to True.
    """

    widget_width = "250px"
    padding = "0px 0px 0px 5px"  # upper, right, bottom, left

    toolbar_button = widgets.ToggleButton(
        value=False,
        tooltip="Toolbar",
        icon="gear",
        layout=widgets.Layout(width="28px", height="28px", padding="0px 0px 0px 4px"),
    )

    close_button = widgets.ToggleButton(
        value=False,
        tooltip="Close the tool",
        icon="times",
        button_style="primary",
        layout=widgets.Layout(height="28px", width="28px", padding="0px 0px 0px 4px"),
    )

    checkbox = widgets.Checkbox(
        description="Checkbox",
        indent=False,
        layout=widgets.Layout(padding=padding, width=widget_width),
    )

    dropdown = widgets.Dropdown(
        options=["Option 1", "Option 2", "Option 3"],
        value=None,
        description="Dropdown:",
        layout=widgets.Layout(width=widget_width, padding=padding),
        style={"description_width": "initial"},
    )

    int_slider = widgets.IntSlider(
        min=1,
        max=100,
        description="Int Slider: ",
        readout=False,
        continuous_update=True,
        layout=widgets.Layout(width="220px", padding=padding),
        style={"description_width": "initial"},
    )

    int_slider_label = widgets.Label(str(int_slider.value))

    def update_int_slider(change):
        int_slider_label.value = str(change["new"])

    int_slider.observe(update_int_slider, "value")

    float_slider = widgets.FloatSlider(
        min=1,
        max=100,
        description="Float Slider: ",
        readout=False,
        continuous_update=True,
        layout=widgets.Layout(width="210px", padding=padding),
        style={"description_width": "initial"},
    )

    float_slider_label = widgets.Label(str(float_slider.value))

    def update_float_slider(change):
        float_slider_label.value = str(change["new"])

    float_slider.observe(update_float_slider, "value")

    color = widgets.ColorPicker(
        concise=False,
        description="Color:",
        value="white",
        style={"description_width": "initial"},
        layout=widgets.Layout(width=widget_width, padding=padding),
    )

    text = widgets.Text(
        value="",
        description="Textbox:",
        placeholder="Placeholder",
        style={"description_width": "initial"},
        layout=widgets.Layout(width=widget_width, padding=padding),
    )

    textarea = widgets.Textarea(
        placeholder="Placeholder",
        layout=widgets.Layout(width=widget_width, padding=padding),
    )

    buttons = widgets.ToggleButtons(
        value=None,
        options=["Apply", "Reset", "Close"],
        tooltips=["Apply", "Reset", "Close"],
        button_style="primary",
    )
    buttons.style.button_width = "80px"

    output = widgets.Output(layout=widgets.Layout(width=widget_width, padding=padding))

    toolbar_widget = widgets.VBox()
    toolbar_widget.children = [toolbar_button]
    toolbar_header = widgets.HBox()
    toolbar_header.children = [close_button, toolbar_button]
    toolbar_footer = widgets.VBox()
    toolbar_footer.children = [
        checkbox,
        widgets.HBox([int_slider, int_slider_label]),
        widgets.HBox([float_slider, float_slider_label]),
        dropdown,
        text,
        color,
        textarea,
        buttons,
        output,
    ]

    # toolbar_event = ipyevents.Event(
    #     source=toolbar_widget, watched_events=["mouseenter", "mouseleave"]
    # )

    # def handle_toolbar_event(event):
    #     if event["type"] == "mouseenter":
    #         toolbar_widget.children = [toolbar_header, toolbar_footer]
    #     elif event["type"] == "mouseleave":
    #         if not toolbar_button.value:
    #             toolbar_widget.children = [toolbar_button]
    #             toolbar_button.value = False
    #             close_button.value = False

    # toolbar_event.on_dom_event(handle_toolbar_event)

    def toolbar_btn_click(change):
        if change["new"]:
            close_button.value = False
            toolbar_widget.children = [toolbar_header, toolbar_footer]
        else:
            if not close_button.value:
                toolbar_widget.children = [toolbar_button]

    toolbar_button.observe(toolbar_btn_click, "value")

    def close_btn_click(change):
        if change["new"]:
            toolbar_button.value = False
            if m is not None:
                m.toolbar_reset()
                if m.tool_control is not None and m.tool_control in m.controls:
                    m.remove_control(m.tool_control)
                    m.tool_control = None
            toolbar_widget.close()

    close_button.observe(close_btn_click, "value")

    def button_clicked(change):
        if change["new"] == "Apply":
            with output:
                output.outputs = ()
                print("Running ...")
        elif change["new"] == "Reset":
            textarea.value = ""
            output.outputs = ()
        elif change["new"] == "Close":
            if m is not None:
                m.toolbar_reset()
                if m.tool_control is not None and m.tool_control in m.controls:
                    m.remove_control(m.tool_control)
                    m.tool_control = None
            toolbar_widget.close()

        buttons.value = None

    buttons.observe(button_clicked, "value")

    toolbar_button.value = opened
    if m is not None:
        toolbar_control = ipyleaflet.WidgetControl(
            widget=toolbar_widget, position="topright"
        )

        if toolbar_control not in m.controls:
            m.add_control(toolbar_control)
            m.tool_control = toolbar_control
    else:
        return toolbar_widget