# SPDX-License-Identifier: LGPL-3.0-or-later
# Copyright (C) 2020 Daniel Thompson

"""Widget library
~~~~~~~~~~~~~~~~~

The widget library allows common fragments of logic and drawing code to be
shared between applications.
"""

import icons
import watch
from micropython import const

class BatteryMeter(object):
    """Battery meter widget.

    A simple battery meter with a charging indicator, will draw at the
    top-right of the display.
    """
    def __init__(self):
        self.level = -2

    def draw(self):
        """Draw from meter (from scratch)."""
        self.level = -2
        self.update()

    def update(self):
        """Update the meter.

        The update is lazy and won't redraw unless the level has changed.
        """
        icon = icons.battery
        draw = watch.drawable

        if watch.battery.charging():
            if self.level != -1:
                draw.rleblit(icon, pos=(239-icon[0], 0), fg=0x7bef)
                self.level = -1
        else:
            level = watch.battery.level()
            if level == self.level:
                return

            if level > 96:
                h = 24
                rgb = 0x07e0
            else:
                h = level // 4

                green = level // 3
                red = 31-green
                rgb = (red << 11) + (green << 6)

            if (level > 5) ^ (self.level > 5):
                if level  > 5:
                    draw.rleblit(icon, pos=(239-icon[0], 0), fg=0x7bef)
                else:
                    rgb = 0xf800
                    draw.rleblit(icon, pos=(239-icon[0], 0), fg=0xf800)

            x = 239 - 30
            w = 16
            if 24 - h:
                draw.fill(0, x, 14, w, 24 - h)
            if h:
                draw.fill(rgb, x, 38 - h, w, h)

            self.level = level

class ScrollIndicator():
    """Scrolling indicator.

    A simple battery meter with a charging indicator, will draw at the
    top-right of the display.
    """
    def __init__(self, x=240-18, y=240-24):
        self._pos = (x, y)
        self.up = True
        self.down = True

    def draw(self):
        """Draw from scrolling indicator.

        For this simple widget :py:meth:`~.draw` is simply a synonym for
        :py:meth:`~.update`.
        """
        self.update()

    def update(self):
        """Update from scrolling indicator."""
        draw = watch.drawable
        if self.up:
            draw.rleblit(icons.up_arrow, pos=self._pos, fg=0x7bef)
        if self.down:
            draw.rleblit(icons.down_arrow, pos=(self._pos[0], self._pos[1] + 13), fg=0x7bef)

_SLIDER_KNOB_DIAMETER = const(40)
_SLIDER_KNOB_RADIUS = const(_SLIDER_KNOB_DIAMETER // 2)
_SLIDER_WIDTH = const(220)
_SLIDER_TRACK = const(_SLIDER_WIDTH - _SLIDER_KNOB_DIAMETER)
_SLIDER_TRACK_HEIGHT = const(8)
_SLIDER_TRACK_Y1 = const(_SLIDER_KNOB_RADIUS - (_SLIDER_TRACK_HEIGHT // 2))
_SLIDER_TRACK_Y2 = const(_SLIDER_TRACK_Y1 + _SLIDER_TRACK_HEIGHT)

class Slider():
    """A slider to select values."""
    def __init__(self, steps, x=10, y=90, color=0x39ff):
        self.value = 0
        self._steps = steps
        self._stepsize = _SLIDER_TRACK / (steps-1)
        self._x = x
        self._y = y
        self._color = color

        # Automatically generate a lowlight color
        if color < 0b10110_000000_00000:
            color = (color | 0b10110_000000_00000) & 0b10110_111111_11111
        if (color & 0b111111_00000) < 0b101100_00000:
            color = (color | 0b101100_00000) & 0b11111_101100_11111
        if (color & 0b11111) < 0b10110:
            color = (color | 0b11000) & 0b11111_111111_10110
        self._lowlight = color

    def draw(self):
        """Draw the slider."""
        draw = watch.drawable
        x = self._x
        y = self._y
        color = self._color
        light = self._lowlight

        knob_x = x + ((_SLIDER_TRACK * self.value) // (self._steps-1))
        draw.blit(icons.knob2, knob_x, y, color)

        w = knob_x - x
        if w > 0:
            draw.fill(0, x, y, w, _SLIDER_TRACK_Y1)
            if w > _SLIDER_KNOB_RADIUS:
                draw.fill(0, x, y+_SLIDER_TRACK_Y1,
                          _SLIDER_KNOB_RADIUS, _SLIDER_TRACK_HEIGHT)
                draw.fill(color, x+_SLIDER_KNOB_RADIUS, y+_SLIDER_TRACK_Y1,
                          w-_SLIDER_KNOB_RADIUS, _SLIDER_TRACK_HEIGHT)
            else:
                draw.fill(0, x, y+_SLIDER_TRACK_Y1, w, _SLIDER_TRACK_HEIGHT)
            draw.fill(0, x, y+_SLIDER_TRACK_Y2, w, _SLIDER_TRACK_Y1)

        sx = knob_x + _SLIDER_KNOB_DIAMETER
        w = _SLIDER_WIDTH - _SLIDER_KNOB_DIAMETER - w
        if w > 0:
            draw.fill(0, sx, y, w, _SLIDER_TRACK_Y1)
            if w > _SLIDER_KNOB_RADIUS:
                draw.fill(0, sx+w-_SLIDER_KNOB_RADIUS, y+_SLIDER_TRACK_Y1,
                          _SLIDER_KNOB_RADIUS, _SLIDER_TRACK_HEIGHT)
                draw.fill(light, sx, y+_SLIDER_TRACK_Y1,
                          w-_SLIDER_KNOB_RADIUS, _SLIDER_TRACK_HEIGHT)
            else:
                draw.fill(0, sx, y+_SLIDER_TRACK_Y1, w, _SLIDER_TRACK_HEIGHT)
            draw.fill(0, sx, y+_SLIDER_TRACK_Y2, w, _SLIDER_TRACK_Y1)

    def update(self):
        self.draw()

    def touch(self, event):
        tx = event[1]
        threshold = self._x + 20 - (self._stepsize / 2)
        v = int((tx - threshold) / self._stepsize)
        if v < 0:
            v = 0
        elif v >= self._steps:
            v = self._steps - 1
        self.value = v