"""Functions for searching through QMK keyboards and keymaps. """ import contextlib import functools import fnmatch import logging import re from typing import Callable, List, Optional, Tuple from dotty_dict import dotty, Dotty from milc import cli from qmk.util import parallel_map from qmk.info import keymap_json from qmk.keyboard import list_keyboards, keyboard_folder from qmk.keymap import list_keymaps, locate_keymap from qmk.build_targets import KeyboardKeymapBuildTarget, BuildTarget TargetInfo = Tuple[str, str, dict] # by using a class for filters, we dont need to worry about capturing values # see details class FilterFunction: """Base class for filters. It provides: - __init__: capture key and value Each subclass should provide: - func_name: how it will be specified on CLI >>> qmk find -f ... - apply: function that actually applies the filter ie: return whether the input kb/km satisfies the condition """ key: str value: Optional[str] func_name: str apply: Callable[[TargetInfo], bool] def __init__(self, key, value): self.key = key self.value = value class Exists(FilterFunction): func_name = "exists" def apply(self, target_info: TargetInfo) -> bool: _kb, _km, info = target_info return self.key in info class Absent(FilterFunction): func_name = "absent" def apply(self, target_info: TargetInfo) -> bool: _kb, _km, info = target_info return self.key not in info class Length(FilterFunction): func_name = "length" def apply(self, target_info: TargetInfo) -> bool: _kb, _km, info = target_info return (self.key in info and len(info[self.key]) == int(self.value)) class Contains(FilterFunction): func_name = "contains" def apply(self, target_info: TargetInfo) -> bool: _kb, _km, info = target_info return (self.key in info and self.value in info[self.key]) def _get_filter_class(func_name: str, key: str, value: str) -> Optional[FilterFunction]: """Initialize a filter subclass based on regex findings and return it. None if no there's no filter with the name queried. """ for subclass in FilterFunction.__subclasses__(): if func_name == subclass.func_name: return subclass(key, value) return None def filter_help() -> str: names = [f"'{f.func_name}'" for f in FilterFunction.__subclasses__()] return ", ".join(names[:-1]) + f" and {names[-1]}" def _set_log_level(level): cli.acquire_lock() old = cli.log_level cli.log_level = level cli.log.setLevel(level) logging.root.setLevel(level) cli.release_lock() return old @contextlib.contextmanager def ignore_logging(): old = _set_log_level(logging.CRITICAL) yield _set_log_level(old) def _all_keymaps(keyboard): """Returns a list of tuples of (keyboard, keymap) for all keymaps for the given keyboard. """ with ignore_logging(): keyboard = keyboard_folder(keyboard) return [(keyboard, keymap) for keymap in list_keymaps(keyboard)] def _keymap_exists(keyboard, keymap): """Returns the keyboard name if the keyboard+keymap combination exists, otherwise None. """ with ignore_logging(): return keyboard if locate_keymap(keyboard, keymap) is not None else None def _load_keymap_info(target: Tuple[str, str]) -> TargetInfo: """Returns a tuple of (keyboard, keymap, info.json) for the given keyboard/keymap combination. """ kb, km = target with ignore_logging(): return (kb, km, keymap_json(kb, km)) def expand_make_targets(targets: List[str]) -> List[Tuple[str, str]]: """Expand a list of make targets into a list of (keyboard, keymap) tuples. Caters for 'all' in either keyboard or keymap, or both. """ split_targets = [] for target in targets: split_target = target.split(':') if len(split_target) != 2: cli.log.error(f"Invalid build target: {target}") return [] split_targets.append((split_target[0], split_target[1])) return expand_keymap_targets(split_targets) def _expand_keymap_target(keyboard: str, keymap: str, all_keyboards: List[str] = None) -> List[Tuple[str, str]]: """Expand a keyboard input and keymap input into a list of (keyboard, keymap) tuples. Caters for 'all' in either keyboard or keymap, or both. """ if all_keyboards is None: all_keyboards = list_keyboards() if keyboard == 'all': if keymap == 'all': cli.log.info('Retrieving list of all keyboards and keymaps...') targets = [] for kb in parallel_map(_all_keymaps, all_keyboards): targets.extend(kb) return targets else: cli.log.info(f'Retrieving list of keyboards with keymap "{keymap}"...') keyboard_filter = functools.partial(_keymap_exists, keymap=keymap) return [(kb, keymap) for kb in filter(lambda e: e is not None, parallel_map(keyboard_filter, all_keyboards))] else: if keymap == 'all': cli.log.info(f'Retrieving list of keymaps for keyboard "{keyboard}"...') return _all_keymaps(keyboard) else: return [(keyboard, keymap)] def expand_keymap_targets(targets: List[Tuple[str, str]]) -> List[Tuple[str, str]]: """Expand a list of (keyboard, keymap) tuples inclusive of 'all', into a list of explicit (keyboard, keymap) tuples. """ overall_targets = [] all_keyboards = list_keyboards() for target in targets: overall_targets.extend(_expand_keymap_target(target[0], target[1], all_keyboards)) return list(sorted(set(overall_targets))) def _construct_build_target_kb_km(e): return KeyboardKeymapBuildTarget(keyboard=e[0], keymap=e[1]) def _construct_build_target_kb_km_json(e): return KeyboardKeymapBuildTarget(keyboard=e[0], keymap=e[1], json=e[2]) def _filter_keymap_targets(target_list: List[Tuple[str, str]], filters: List[str] = []) -> List[BuildTarget]: """Filter a list of (keyboard, keymap) tuples based on the supplied filters. Optionally includes the values of the queried info.json keys. """ if len(filters) == 0: cli.log.info('Preparing target list...') targets = list(set(parallel_map(_construct_build_target_kb_km, target_list))) else: cli.log.info('Parsing data for all matching keyboard/keymap combinations...') valid_keymaps = [(e[0], e[1], dotty(e[2])) for e in parallel_map(_load_keymap_info, target_list)] function_re = re.compile(r'^(?P[a-zA-Z]+)\((?P[a-zA-Z0-9_\.]+)(,\s*(?P[^#]+))?\)$') equals_re = re.compile(r'^(?P[a-zA-Z0-9_\.]+)\s*=\s*(?P[^#]+)$') for filter_expr in filters: function_match = function_re.match(filter_expr) equals_match = equals_re.match(filter_expr) if function_match is not None: func_name = function_match.group('function').lower() key = function_match.group('key') value = function_match.group('value') filter_class = _get_filter_class(func_name, key, value) if filter_class is None: cli.log.warning(f'Unrecognized filter expression: {function_match.group(0)}') continue valid_keymaps = filter(filter_class.apply, valid_keymaps) value_str = f", {{fg_cyan}}{value}{{fg_reset}})" if value is not None else "" cli.log.info(f'Filtering on condition: {{fg_green}}{func_name}{{fg_reset}}({{fg_cyan}}{key}{{fg_reset}}{value_str}...') elif equals_match is not None: key = equals_match.group('key') value = equals_match.group('value') cli.log.info(f'Filtering on condition: {{fg_cyan}}{key}{{fg_reset}} == {{fg_cyan}}{value}{{fg_reset}}...') def _make_filter(k, v): expr = fnmatch.translate(v) rule = re.compile(f'^{expr}$', re.IGNORECASE) def f(e): lhs = e[2].get(k) lhs = str(False if lhs is None else lhs) return rule.search(lhs) is not None return f valid_keymaps = filter(_make_filter(key, value), valid_keymaps) else: cli.log.warning(f'Unrecognized filter expression: {filter_expr}') continue cli.log.info('Preparing target list...') valid_keymaps = [(e[0], e[1], e[2].to_dict() if isinstance(e[2], Dotty) else e[2]) for e in valid_keymaps] # need to convert dotty_dict back to dict because it doesn't survive parallelisation targets = list(set(parallel_map(_construct_build_target_kb_km_json, list(valid_keymaps)))) return targets def search_keymap_targets(targets: List[Tuple[str, str]] = [('all', 'default')], filters: List[str] = []) -> List[BuildTarget]: """Search for build targets matching the supplied criteria. """ return _filter_keymap_targets(expand_keymap_targets(targets), filters) def search_make_targets(targets: List[str], filters: List[str] = []) -> List[BuildTarget]: """Search for build targets matching the supplied criteria. """ return _filter_keymap_targets(expand_make_targets(targets), filters)