###############################################################################
#
# ChartLine - A class for writing the Excel XLSX Line charts.
#
# SPDX-License-Identifier: BSD-2-Clause
#
# Copyright (c) 2013-2025, John McNamara, jmcnamara@cpan.org
#

from . import chart


class ChartLine(chart.Chart):
    """
    A class for writing the Excel XLSX Line charts.


    """

    ###########################################################################
    #
    # Public API.
    #
    ###########################################################################

    def __init__(self, options=None):
        """
        Constructor.

        """
        super().__init__()

        if options is None:
            options = {}

        self.subtype = options.get("subtype")

        if not self.subtype:
            self.subtype = "standard"

        self.default_marker = {"type": "none"}
        self.smooth_allowed = True

        # Override and reset the default axis values.
        if self.subtype == "percent_stacked":
            self.y_axis["defaults"]["num_format"] = "0%"

        # Set the available data label positions for this chart type.
        self.label_position_default = "right"
        self.label_positions = {
            "center": "ctr",
            "right": "r",
            "left": "l",
            "above": "t",
            "below": "b",
            # For backward compatibility.
            "top": "t",
            "bottom": "b",
        }

        self.set_y_axis({})

    ###########################################################################
    #
    # Private API.
    #
    ###########################################################################

    def _write_chart_type(self, args):
        # Override the virtual superclass method with a chart specific method.
        # Write the c:lineChart element.
        self._write_line_chart(args)

    ###########################################################################
    #
    # XML methods.
    #
    ###########################################################################

    def _write_line_chart(self, args):
        # Write the <c:lineChart> element.

        if args["primary_axes"]:
            series = self._get_primary_axes_series()
        else:
            series = self._get_secondary_axes_series()

        if not series:
            return

        subtype = self.subtype

        if subtype == "percent_stacked":
            subtype = "percentStacked"

        self._xml_start_tag("c:lineChart")

        # Write the c:grouping element.
        self._write_grouping(subtype)

        # Write the series elements.
        for data in series:
            self._write_ser(data)

        # Write the c:dropLines element.
        self._write_drop_lines()

        # Write the c:hiLowLines element.
        self._write_hi_low_lines()

        # Write the c:upDownBars element.
        self._write_up_down_bars()

        # Write the c:marker element.
        self._write_marker_value()

        # Write the c:axId elements
        self._write_axis_ids(args)

        self._xml_end_tag("c:lineChart")

    def _write_d_pt_point(self, index, point):
        # Write an individual <c:dPt> element. Override the parent method to
        # add markers.

        self._xml_start_tag("c:dPt")

        # Write the c:idx element.
        self._write_idx(index)

        self._xml_start_tag("c:marker")

        # Write the c:spPr element.
        self._write_sp_pr(point)

        self._xml_end_tag("c:marker")

        self._xml_end_tag("c:dPt")

    def _write_marker_value(self):
        # Write the <c:marker> element without a sub-element.
        attributes = [("val", 1)]

        self._xml_empty_tag("c:marker", attributes)