Inkycal/inkycal/custom/functions.py

#!/usr/bin/python3
# -*- coding: utf-8 -*-
"""
Inky-Calendar custom-functions for ease-of-use

Copyright by aceisace
"""
import logging
from PIL import Image, ImageDraw, ImageFont, ImageColor
from urllib.request import urlopen
import os
import time

logs = logging.getLogger('inkycal_custom')
logs.setLevel(level=logging.INFO)

# Get the path to the Inkycal folder
top_level = os.path.dirname(
    os.path.abspath(os.path.dirname(__file__))).split('/inkycal')[0]

# Get path of 'fonts' and 'images' folders within Inkycal folder
fonts_location = top_level + '/fonts/'
images = top_level + '/images/'

# Get available fonts within fonts folder
fonts = {}

for path, dirs, files in os.walk(fonts_location):
    for filename in files:
        if filename.endswith('.otf'):
            name = filename.split('.otf')[0]
            fonts[name] = os.path.join(path, filename)

        if filename.endswith('.ttf'):
            name = filename.split('.ttf')[0]
            fonts[name] = os.path.join(path, filename)

available_fonts = [key for key, values in fonts.items()]


def get_fonts():
    """Print all available fonts by name.

    Searches the /font folder in Inkycal and displays all fonts found in
    there.

    Returns:
      printed output of all available fonts. To access a fontfile, use the
      fonts dictionary to access it.

      >>> fonts['fontname']

    To use a font, use the following sytax, where fontname is one of the
    printed fonts of this function:

    >>> ImageFont.truetype(fonts['fontname'], size = 10)
    """
    for fonts in available_fonts:
        print(fonts)


def get_system_tz():
    """Gets the system-timezone

    Gets the timezone set by the system.

    Returns:
      - A timezone if a system timezone was found.
      - None if no timezone was found.

    The extracted timezone can be used to show the local time instead of UTC. e.g.

      >>> import arrow
      >>> print(arrow.now()) # returns non-timezone-aware time
      >>> print(arrow.now(tz=get_system_tz()) # prints timezone aware time.
    """
    try:
        local_tz = time.tzname[1]
    except:
        print('System timezone could not be parsed!')
        print('Please set timezone manually!. Setting timezone to None...')
        local_tz = None
    return local_tz


def auto_fontsize(font, max_height):
    """Scales a given font to 80% of max_height.

      Gets the height of a font and scales it until 80% of the max_height
      is filled.


      Args:
          - font: A PIL Font object.
          - max_height: An integer representing the height to adjust the font to
            which the given font should be scaled to.

      Returns:
          A PIL font object with modified height.
      """

    fontsize = font.getsize('hg')[1]
    while font.getsize('hg')[1] <= (max_height * 0.80):
        fontsize += 1
        font = ImageFont.truetype(font.path, fontsize)
    return font


def write(image, xy, box_size, text, font=None, **kwargs):
    """Writes text on a image.

    Writes given text at given position on the specified image.

    Args:
      - image: The image to draw this text on, usually im_black or im_colour.
      - xy: tuple-> (x,y) representing the x and y co-ordinate.
      - box_size: tuple -> (width, height) representing the size of the text box.
      - text: string, the actual text to add on the image.
      - font: A PIL Font object e.g.
        ImageFont.truetype(fonts['fontname'], size = 10).

    Args: (optional)
      - alignment: alignment of the text, use 'center', 'left', 'right'.
      - autofit: bool (True/False). Automatically increases fontsize to fill in
        as much of the box-height as possible.
      - colour: black by default, do not change as it causes issues with rendering
        on e-Paper.
      - rotation: Rotate the text with the text-box by a given angle anti-clockwise.
      - fill_width: Decimal representing a percentage e.g. 0.9 # 90%. Fill a
        maximum of 90% of the size of the full width of text-box.
      - fill_height: Decimal representing a percentage e.g. 0.9 # 90%. Fill a
        maximum of 90% of the size of the full height of the text-box.
    """
    allowed_kwargs = ['alignment', 'autofit', 'colour', 'rotation',
                      'fill_width', 'fill_height']

    # Validate kwargs
    for key, value in kwargs.items():
        if key not in allowed_kwargs:
            print('{0} does not exist'.format(key))

    # Set kwargs if given, it not, use defaults
    alignment = kwargs['alignment'] if 'alignment' in kwargs else 'center'
    autofit = kwargs['autofit'] if 'autofit' in kwargs else False
    fill_width = kwargs['fill_width'] if 'fill_width' in kwargs else 1.0
    fill_height = kwargs['fill_height'] if 'fill_height' in kwargs else 0.8
    colour = kwargs['colour'] if 'colour' in kwargs else 'black'
    rotation = kwargs['rotation'] if 'rotation' in kwargs else None

    x, y = xy
    box_width, box_height = box_size

    # Increase fontsize to fit specified height and width of text box
    if (autofit == True) or (fill_width != 1.0) or (fill_height != 0.8):
        size = 8
        font = ImageFont.truetype(font.path, size)
        text_width, text_height = font.getsize(text)[0], font.getsize('hg')[1]
        while (text_width < int(box_width * fill_width) and
               text_height < int(box_height * fill_height)):
            size += 1
            font = ImageFont.truetype(font.path, size)
            text_width, text_height = font.getsize(text)[0], font.getsize('hg')[1]

    text_width, text_height = font.getsize(text)[0], font.getsize('hg')[1]

    # Truncate text if text is too long so it can fit inside the box
    if (text_width, text_height) > (box_width, box_height):
        logs.debug(('truncating {}'.format(text)))
        while (text_width, text_height) > (box_width, box_height):
            text = text[0:-1]
            text_width, text_height = font.getsize(text)[0], font.getsize('hg')[1]
        logs.debug((text))

    # Align text to desired position
    if alignment == "center" or None:
        x = int((box_width / 2) - (text_width / 2))
    elif alignment == 'left':
        x = 0
    elif alignment == 'right':
        x = int(box_width - text_width)

    y = int((box_height / 2) - (text_height / 2))

    # Draw the text in the text-box
    draw = ImageDraw.Draw(image)
    space = Image.new('RGBA', (box_width, box_height))
    ImageDraw.Draw(space).text((x, y), text, fill=colour, font=font)

    # Uncomment following two lines, comment out above two lines to show
    # red text-box with white text (debugging purposes)

    # space = Image.new('RGBA', (box_width, box_height), color= 'red')
    # ImageDraw.Draw(space).text((x, y), text, fill='white', font=font)

    if rotation != None:
        space.rotate(rotation, expand=True)

    # Update only region with text (add text with transparent background)
    image.paste(space, xy, space)


def text_wrap(text, font=None, max_width=None):
    """Splits a very long text into smaller parts

    Splits a long text to smaller lines which can fit in a line with max_width.
    Uses a Font object for more accurate calculations.

    Args:
      - font: A PIL font object which is used to calculate the size.
      - max_width: int-> a width in pixels defining the maximum width before
        splitting the text into the next chunk.

    Returns:
      A list containing chunked strings of the full text.
    """
    lines = []
    if font.getsize(text)[0] < max_width:
        lines.append(text)
    else:
        words = text.split(' ')
        i = 0
        while i < len(words):
            line = ''
            while i < len(words) and font.getsize(line + words[i])[0] <= max_width:
                line = line + words[i] + " "
                i += 1
            if not line:
                line = words[i]
                i += 1
            lines.append(line)
    return lines


def internet_available():
    """checks if the internet is available.

    Attempts to connect to google.com with a timeout of 5 seconds to check
    if the network can be reached.

    Returns:
      - True if connection could be established.
      - False if the internet could not be reached.

    Returned output can be used to add a check for internet availability:

    >>> if internet_available():
    >>> #...do something that requires internet connectivity
    """

    try:
        urlopen('https://google.com', timeout=5)
        return True
    except:
        return False


def draw_border(image, xy, size, radius=5, thickness=1, shrinkage=(0.1, 0.1)):
    """Draws a border at given coordinates.

    Args:
      - image: The image on which the border should be drawn (usually im_black or
        im_colour.

      - xy: Tuple representing the top-left corner of the border e.g. (32, 100)
        where 32 is the x co-ordinate and 100 is the y-coordinate.

      - size: Size of the border as a tuple -> (width, height).

      - radius: Radius of the corners, where 0 = plain rectangle, 5 = round corners.

      - thickness: Thickness of the border in pixels.

      - shrinkage: A tuple containing decimals presenting a percentage of shrinking
        -> (width_shrink_percentage, height_shrink_percentage).
        e.g. (0.1, 0.2) ~ shrinks the width of border by 10%, shrinks height of
        border by 20%
    """

    colour = 'black'

    # size from function paramter
    width, height = int(size[0] * (1 - shrinkage[0])), int(size[1] * (1 - shrinkage[1]))

    # shift cursor to move rectangle to center
    offset_x, offset_y = int((size[0] - width) / 2), int((size[1] - height) / 2)

    x, y, diameter = xy[0] + offset_x, xy[1] + offset_y, radius * 2
    # lenght of rectangle size
    a, b = (width - diameter), (height - diameter)

    # Set coordinates for staright lines
    p1, p2 = (x + radius, y), (x + radius + a, y)
    p3, p4 = (x + width, y + radius), (x + width, y + radius + b)
    p5, p6 = (p2[0], y + height), (p1[0], y + height)
    p7, p8 = (x, p4[1]), (x, p3[1])
    if radius != 0:
        # Set coordinates for arcs
        c1, c2 = (x, y), (x + diameter, y + diameter)
        c3, c4 = ((x + width) - diameter, y), (x + width, y + diameter)
        c5, c6 = ((x + width) - diameter, (y + height) - diameter), (x + width, y + height)
        c7, c8 = (x, (y + height) - diameter), (x + diameter, y + height)

    # Draw lines and arcs, creating a square with round corners
    draw = ImageDraw.Draw(image)
    draw.line((p1, p2), fill=colour, width=thickness)
    draw.line((p3, p4), fill=colour, width=thickness)
    draw.line((p5, p6), fill=colour, width=thickness)
    draw.line((p7, p8), fill=colour, width=thickness)

    if radius != 0:
        draw.arc((c1, c2), 180, 270, fill=colour, width=thickness)
        draw.arc((c3, c4), 270, 360, fill=colour, width=thickness)
        draw.arc((c5, c6), 0, 90, fill=colour, width=thickness)
        draw.arc((c7, c8), 90, 180, fill=colour, width=thickness)