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path: root/lib/python/qmk/keyboard.py
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"""Functions that help us work with keyboards.
"""
from array import array
from math import ceil
from pathlib import Path
import os
from glob import glob

import qmk.path
from qmk.c_parse import parse_config_h_file
from qmk.json_schema import json_load
from qmk.makefile import parse_rules_mk_file

BOX_DRAWING_CHARACTERS = {
    "unicode": {
        "tl": "┌",
        "tr": "┐",
        "bl": "└",
        "br": "┘",
        "v": "│",
        "h": "─",
    },
    "ascii": {
        "tl": " ",
        "tr": " ",
        "bl": "|",
        "br": "|",
        "v": "|",
        "h": "_",
    },
}

base_path = os.path.join(os.getcwd(), "keyboards") + os.path.sep


def find_keyboard_from_dir():
    """Returns a keyboard name based on the user's current directory.
    """
    relative_cwd = qmk.path.under_qmk_firmware()

    if relative_cwd and len(relative_cwd.parts) > 1 and relative_cwd.parts[0] == 'keyboards':
        # Attempt to extract the keyboard name from the current directory
        current_path = Path('/'.join(relative_cwd.parts[1:]))

        if 'keymaps' in current_path.parts:
            # Strip current_path of anything after `keymaps`
            keymap_index = len(current_path.parts) - current_path.parts.index('keymaps') - 1
            current_path = current_path.parents[keymap_index]

        if qmk.path.is_keyboard(current_path):
            return str(current_path)


def find_readme(keyboard):
    """Returns the readme for this keyboard.
    """
    cur_dir = qmk.path.keyboard(keyboard)
    keyboards_dir = Path('keyboards')
    while not (cur_dir / 'readme.md').exists():
        if cur_dir == keyboards_dir:
            return None
        cur_dir = cur_dir.parent

    return cur_dir / 'readme.md'


def keyboard_folder(keyboard):
    """Returns the actual keyboard folder.

    This checks aliases and DEFAULT_FOLDER to resolve the actual path for a keyboard.
    """
    aliases = json_load(Path('data/mappings/keyboard_aliases.hjson'))

    if keyboard in aliases:
        keyboard = aliases[keyboard].get('target', keyboard)

    rules_mk_file = Path(base_path, keyboard, 'rules.mk')

    if rules_mk_file.exists():
        rules_mk = parse_rules_mk_file(rules_mk_file)
        keyboard = rules_mk.get('DEFAULT_FOLDER', keyboard)

    if not qmk.path.is_keyboard(keyboard):
        raise ValueError(f'Invalid keyboard: {keyboard}')

    return keyboard


def _find_name(path):
    """Determine the keyboard name by stripping off the base_path and rules.mk.
    """
    return path.replace(base_path, "").replace(os.path.sep + "rules.mk", "")


def keyboard_completer(prefix, action, parser, parsed_args):
    """Returns a list of keyboards for tab completion.
    """
    return list_keyboards()


def list_keyboards(resolve_defaults=True):
    """Returns a list of all keyboards - optionally processing any DEFAULT_FOLDER.
    """
    # We avoid pathlib here because this is performance critical code.
    kb_wildcard = os.path.join(base_path, "**", "rules.mk")
    paths = [path for path in glob(kb_wildcard, recursive=True) if os.path.sep + 'keymaps' + os.path.sep not in path]

    found = map(_find_name, paths)
    if resolve_defaults:
        found = map(resolve_keyboard, found)

    return sorted(set(found))


def resolve_keyboard(keyboard):
    cur_dir = Path('keyboards')
    rules = parse_rules_mk_file(cur_dir / keyboard / 'rules.mk')
    while 'DEFAULT_FOLDER' in rules and keyboard != rules['DEFAULT_FOLDER']:
        keyboard = rules['DEFAULT_FOLDER']
        rules = parse_rules_mk_file(cur_dir / keyboard / 'rules.mk')
    return keyboard


def config_h(keyboard):
    """Parses all the config.h files for a keyboard.

    Args:
        keyboard: name of the keyboard

    Returns:
        a dictionary representing the content of the entire config.h tree for a keyboard
    """
    config = {}
    cur_dir = Path('keyboards')
    keyboard = Path(resolve_keyboard(keyboard))

    for dir in keyboard.parts:
        cur_dir = cur_dir / dir
        config = {**config, **parse_config_h_file(cur_dir / 'config.h')}

    return config


def rules_mk(keyboard):
    """Get a rules.mk for a keyboard

    Args:
        keyboard: name of the keyboard

    Returns:
        a dictionary representing the content of the entire rules.mk tree for a keyboard
    """
    cur_dir = Path('keyboards')
    keyboard = Path(resolve_keyboard(keyboard))
    rules = parse_rules_mk_file(cur_dir / keyboard / 'rules.mk')

    for i, dir in enumerate(keyboard.parts):
        cur_dir = cur_dir / dir
        rules = parse_rules_mk_file(cur_dir / 'rules.mk', rules)

    return rules


def render_layout(layout_data, render_ascii, key_labels=None):
    """Renders a single layout.
    """
    textpad = [array('u', ' ' * 200) for x in range(100)]
    style = 'ascii' if render_ascii else 'unicode'

    for key in layout_data:
        x = key.get('x', 0)
        y = key.get('y', 0)
        w = key.get('w', 1)
        h = key.get('h', 1)

        if key_labels:
            label = key_labels.pop(0)
            if label.startswith('KC_'):
                label = label[3:]
        else:
            label = key.get('label', '')

        if x >= 0.25 and w == 1.25 and h == 2:
            render_key_isoenter(textpad, x, y, w, h, label, style)
        elif w == 1.5 and h == 2:
            render_key_baenter(textpad, x, y, w, h, label, style)
        else:
            render_key_rect(textpad, x, y, w, h, label, style)

    lines = []
    for line in textpad:
        if line.tounicode().strip():
            lines.append(line.tounicode().rstrip())

    return '\n'.join(lines)


def render_layouts(info_json, render_ascii):
    """Renders all the layouts from an `info_json` structure.
    """
    layouts = {}

    for layout in info_json['layouts']:
        layout_data = info_json['layouts'][layout]['layout']
        layouts[layout] = render_layout(layout_data, render_ascii)

    return layouts


def render_key_rect(textpad, x, y, w, h, label, style):
    box_chars = BOX_DRAWING_CHARACTERS[style]
    x = ceil(x * 4)
    y = ceil(y * 3)
    w = ceil(w * 4)
    h = ceil(h * 3)

    label_len = w - 2
    label_leftover = label_len - len(label)

    if len(label) > label_len:
        label = label[:label_len]

    label_blank = ' ' * label_len
    label_border = box_chars['h'] * label_len
    label_middle = label + ' ' * label_leftover

    top_line = array('u', box_chars['tl'] + label_border + box_chars['tr'])
    lab_line = array('u', box_chars['v'] + label_middle + box_chars['v'])
    mid_line = array('u', box_chars['v'] + label_blank + box_chars['v'])
    bot_line = array('u', box_chars['bl'] + label_border + box_chars['br'])

    textpad[y][x:x + w] = top_line
    textpad[y + 1][x:x + w] = lab_line
    for i in range(h - 3):
        textpad[y + i + 2][x:x + w] = mid_line
    textpad[y + h - 1][x:x + w] = bot_line


def render_key_isoenter(textpad, x, y, w, h, label, style):
    box_chars = BOX_DRAWING_CHARACTERS[style]
    x = ceil(x * 4)
    y = ceil(y * 3)
    w = ceil(w * 4)
    h = ceil(h * 3)

    label_len = w - 1
    label_leftover = label_len - len(label)

    if len(label) > label_len:
        label = label[:label_len]

    label_blank = ' ' * (label_len - 1)
    label_border_top = box_chars['h'] * label_len
    label_border_bottom = box_chars['h'] * (label_len - 1)
    label_middle = label + ' ' * label_leftover

    top_line = array('u', box_chars['tl'] + label_border_top + box_chars['tr'])
    lab_line = array('u', box_chars['v'] + label_middle + box_chars['v'])
    crn_line = array('u', box_chars['bl'] + box_chars['tr'] + label_blank + box_chars['v'])
    mid_line = array('u', box_chars['v'] + label_blank + box_chars['v'])
    bot_line = array('u', box_chars['bl'] + label_border_bottom + box_chars['br'])

    textpad[y][x - 1:x + w] = top_line
    textpad[y + 1][x - 1:x + w] = lab_line
    textpad[y + 2][x - 1:x + w] = crn_line
    textpad[y + 3][x:x + w] = mid_line
    textpad[y + 4][x:x + w] = mid_line
    textpad[y + 5][x:x + w] = bot_line


def render_key_baenter(textpad, x, y, w, h, label, style):
    box_chars = BOX_DRAWING_CHARACTERS[style]
    x = ceil(x * 4)
    y = ceil(y * 3)
    w = ceil(w * 4)
    h = ceil(h * 3)

    label_len = w + 1
    label_leftover = label_len - len(label)

    if len(label) > label_len:
        label = label[:label_len]

    label_blank = ' ' * (label_len - 3)
    label_border_top = box_chars['h'] * (label_len - 3)
    label_border_bottom = box_chars['h'] * label_len
    label_middle = label + ' ' * label_leftover

    top_line = array('u', box_chars['tl'] + label_border_top + box_chars['tr'])
    mid_line = array('u', box_chars['v'] + label_blank + box_chars['v'])
    crn_line = array('u', box_chars['tl'] + box_chars['h'] + box_chars['h'] + box_chars['br'] + label_blank + box_chars['v'])
    lab_line = array('u', box_chars['v'] + label_middle + box_chars['v'])
    bot_line = array('u', box_chars['bl'] + label_border_bottom + box_chars['br'])

    textpad[y][x:x + w] = top_line
    textpad[y + 1][x:x + w] = mid_line
    textpad[y + 2][x:x + w] = mid_line
    textpad[y + 3][x - 3:x + w] = crn_line
    textpad[y + 4][x - 3:x + w] = lab_line
    textpad[y + 5][x - 3:x + w] = bot_line