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QMK CLI and JSON keymap support (#6176)

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* Script to generate keymap.c from JSON file.

* Support for keymap.json

* Add a warning about the keymap.c getting overwritten.

* Fix keymap generating

* Install the python deps

* Flesh out more of the python environment

* Remove defunct json2keymap

* Style everything with yapf

* Polish up python support

* Hide json keymap.c into the .build dir

* Polish up qmk-compile-json

* Make milc work with positional arguments

* Fix a couple small things

* Fix some errors and make the CLI more understandable

* Make the qmk wrapper more robust

* Add basic QMK Doctor

* Clean up docstrings and flesh them out as needed

* remove unused compile_firmware() function
This commit is contained in:
skullydazed 2019-07-15 12:14:27 -07:00 committed by GitHub
parent 7ba82cb5b7
commit a25dd58bc5
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34 changed files with 1988 additions and 83 deletions
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716
lib/python/milc.py Normal file
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#!/usr/bin/env python3
# coding=utf-8
"""MILC - A CLI Framework
PYTHON_ARGCOMPLETE_OK
MILC is an opinionated framework for writing CLI apps. It optimizes for the
most common unix tool pattern- small tools that are run from the command
line but generally do not feature any user interaction while they run.
For more details see the MILC documentation:
<https://github.com/clueboard/milc/tree/master/docs>
"""
from __future__ import division, print_function, unicode_literals
import argparse
import logging
import os
import re
import sys
from decimal import Decimal
from tempfile import NamedTemporaryFile
from time import sleep
try:
from ConfigParser import RawConfigParser
except ImportError:
from configparser import RawConfigParser
try:
import thread
import threading
except ImportError:
thread = None
import argcomplete
import colorama
# Log Level Representations
EMOJI_LOGLEVELS = {
'CRITICAL': '{bg_red}{fg_white}¬_¬{style_reset_all}',
'ERROR': '{fg_red}{style_reset_all}',
'WARNING': '{fg_yellow}{style_reset_all}',
'INFO': '{fg_blue}{style_reset_all}',
'DEBUG': '{fg_cyan}{style_reset_all}',
'NOTSET': '{style_reset_all}¯\\_(o_o)_/¯'
}
EMOJI_LOGLEVELS['FATAL'] = EMOJI_LOGLEVELS['CRITICAL']
EMOJI_LOGLEVELS['WARN'] = EMOJI_LOGLEVELS['WARNING']
# ANSI Color setup
# Regex was gratefully borrowed from kfir on stackoverflow:
# https://stackoverflow.com/a/45448194
ansi_regex = r'\x1b(' \
r'(\[\??\d+[hl])|' \
r'([=<>a-kzNM78])|' \
r'([\(\)][a-b0-2])|' \
r'(\[\d{0,2}[ma-dgkjqi])|' \
r'(\[\d+;\d+[hfy]?)|' \
r'(\[;?[hf])|' \
r'(#[3-68])|' \
r'([01356]n)|' \
r'(O[mlnp-z]?)|' \
r'(/Z)|' \
r'(\d+)|' \
r'(\[\?\d;\d0c)|' \
r'(\d;\dR))'
ansi_escape = re.compile(ansi_regex, flags=re.IGNORECASE)
ansi_styles = (
('fg', colorama.ansi.AnsiFore()),
('bg', colorama.ansi.AnsiBack()),
('style', colorama.ansi.AnsiStyle()),
)
ansi_colors = {}
for prefix, obj in ansi_styles:
for color in [x for x in obj.__dict__ if not x.startswith('_')]:
ansi_colors[prefix + '_' + color.lower()] = getattr(obj, color)
def format_ansi(text):
"""Return a copy of text with certain strings replaced with ansi.
"""
# Avoid .format() so we don't have to worry about the log content
for color in ansi_colors:
text = text.replace('{%s}' % color, ansi_colors[color])
return text + ansi_colors['style_reset_all']
class ANSIFormatter(logging.Formatter):
"""A log formatter that inserts ANSI color.
"""
def format(self, record):
msg = super(ANSIFormatter, self).format(record)
return format_ansi(msg)
class ANSIEmojiLoglevelFormatter(ANSIFormatter):
"""A log formatter that makes the loglevel an emoji.
"""
def format(self, record):
record.levelname = EMOJI_LOGLEVELS[record.levelname].format(**ansi_colors)
return super(ANSIEmojiLoglevelFormatter, self).format(record)
class ANSIStrippingFormatter(ANSIFormatter):
"""A log formatter that strips ANSI.
"""
def format(self, record):
msg = super(ANSIStrippingFormatter, self).format(record)
return ansi_escape.sub('', msg)
class Configuration(object):
"""Represents the running configuration.
This class never raises IndexError, instead it will return None if a
section or option does not yet exist.
"""
def __contains__(self, key):
return self._config.__contains__(key)
def __iter__(self):
return self._config.__iter__()
def __len__(self):
return self._config.__len__()
def __repr__(self):
return self._config.__repr__()
def keys(self):
return self._config.keys()
def items(self):
return self._config.items()
def values(self):
return self._config.values()
def __init__(self, *args, **kwargs):
self._config = {}
self.default_container = ConfigurationOption
def __getitem__(self, key):
"""Returns a config section, creating it if it doesn't exist yet.
"""
if key not in self._config:
self.__dict__[key] = self._config[key] = ConfigurationOption()
return self._config[key]
def __setitem__(self, key, value):
self.__dict__[key] = value
self._config[key] = value
def __delitem__(self, key):
if key in self.__dict__ and key[0] != '_':
del self.__dict__[key]
del self._config[key]
class ConfigurationOption(Configuration):
def __init__(self, *args, **kwargs):
super(ConfigurationOption, self).__init__(*args, **kwargs)
self.default_container = dict
def __getitem__(self, key):
"""Returns a config section, creating it if it doesn't exist yet.
"""
if key not in self._config:
self.__dict__[key] = self._config[key] = None
return self._config[key]
def handle_store_boolean(self, *args, **kwargs):
"""Does the add_argument for action='store_boolean'.
"""
kwargs['add_dest'] = False
disabled_args = None
disabled_kwargs = kwargs.copy()
disabled_kwargs['action'] = 'store_false'
disabled_kwargs['help'] = 'Disable ' + kwargs['help']
kwargs['action'] = 'store_true'
kwargs['help'] = 'Enable ' + kwargs['help']
for flag in args:
if flag[:2] == '--':
disabled_args = ('--no-' + flag[2:],)
break
self.add_argument(*args, **kwargs)
self.add_argument(*disabled_args, **disabled_kwargs)
return (args, kwargs, disabled_args, disabled_kwargs)
class SubparserWrapper(object):
"""Wrap subparsers so we can populate the normal and the shadow parser.
"""
def __init__(self, cli, submodule, subparser):
self.cli = cli
self.submodule = submodule
self.subparser = subparser
for attr in dir(subparser):
if not hasattr(self, attr):
setattr(self, attr, getattr(subparser, attr))
def completer(self, completer):
"""Add an arpcomplete completer to this subcommand.
"""
self.subparser.completer = completer
def add_argument(self, *args, **kwargs):
if kwargs.get('add_dest', True):
kwargs['dest'] = self.submodule + '_' + self.cli.get_argument_name(*args, **kwargs)
if 'add_dest' in kwargs:
del kwargs['add_dest']
if 'action' in kwargs and kwargs['action'] == 'store_boolean':
return handle_store_boolean(self, *args, **kwargs)
self.cli.acquire_lock()
self.subparser.add_argument(*args, **kwargs)
if 'default' in kwargs:
del kwargs['default']
if 'action' in kwargs and kwargs['action'] == 'store_false':
kwargs['action'] == 'store_true'
self.cli.subcommands_default[self.submodule].add_argument(*args, **kwargs)
self.cli.release_lock()
class MILC(object):
"""MILC - An Opinionated Batteries Included Framework
"""
def __init__(self):
"""Initialize the MILC object.
"""
# Setup a lock for thread safety
self._lock = threading.RLock() if thread else None
# Define some basic info
self.acquire_lock()
self._description = None
self._entrypoint = None
self._inside_context_manager = False
self.ansi = ansi_colors
self.config = Configuration()
self.config_file = None
self.prog_name = sys.argv[0][:-3] if sys.argv[0].endswith('.py') else sys.argv[0]
self.version = os.environ.get('QMK_VERSION', 'unknown')
self.release_lock()
# Initialize all the things
self.initialize_argparse()
self.initialize_logging()
@property
def description(self):
return self._description
@description.setter
def description(self, value):
self._description = self._arg_parser.description = self._arg_defaults.description = value
def echo(self, text, *args, **kwargs):
"""Print colorized text to stdout, as long as stdout is a tty.
ANSI color strings (such as {fg-blue}) will be converted into ANSI
escape sequences, and the ANSI reset sequence will be added to all
strings.
If *args or **kwargs are passed they will be used to %-format the strings.
"""
if args and kwargs:
raise RuntimeError('You can only specify *args or **kwargs, not both!')
if sys.stdout.isatty():
args = args or kwargs
text = format_ansi(text)
print(text % args)
def initialize_argparse(self):
"""Prepare to process arguments from sys.argv.
"""
kwargs = {
'fromfile_prefix_chars': '@',
'conflict_handler': 'resolve',
}
self.acquire_lock()
self.subcommands = {}
self.subcommands_default = {}
self._subparsers = None
self._subparsers_default = None
self.argwarn = argcomplete.warn
self.args = None
self._arg_defaults = argparse.ArgumentParser(**kwargs)
self._arg_parser = argparse.ArgumentParser(**kwargs)
self.set_defaults = self._arg_parser.set_defaults
self.print_usage = self._arg_parser.print_usage
self.print_help = self._arg_parser.print_help
self.release_lock()
def completer(self, completer):
"""Add an arpcomplete completer to this subcommand.
"""
self._arg_parser.completer = completer
def add_argument(self, *args, **kwargs):
"""Wrapper to add arguments to both the main and the shadow argparser.
"""
if kwargs.get('add_dest', True) and args[0][0] == '-':
kwargs['dest'] = 'general_' + self.get_argument_name(*args, **kwargs)
if 'add_dest' in kwargs:
del kwargs['add_dest']
if 'action' in kwargs and kwargs['action'] == 'store_boolean':
return handle_store_boolean(self, *args, **kwargs)
self.acquire_lock()
self._arg_parser.add_argument(*args, **kwargs)
# Populate the shadow parser
if 'default' in kwargs:
del kwargs['default']
if 'action' in kwargs and kwargs['action'] == 'store_false':
kwargs['action'] == 'store_true'
self._arg_defaults.add_argument(*args, **kwargs)
self.release_lock()
def initialize_logging(self):
"""Prepare the defaults for the logging infrastructure.
"""
self.acquire_lock()
self.log_file = None
self.log_file_mode = 'a'
self.log_file_handler = None
self.log_print = True
self.log_print_to = sys.stderr
self.log_print_level = logging.INFO
self.log_file_level = logging.DEBUG
self.log_level = logging.INFO
self.log = logging.getLogger(self.__class__.__name__)
self.log.setLevel(logging.DEBUG)
logging.root.setLevel(logging.DEBUG)
self.release_lock()
self.add_argument('-V', '--version', version=self.version, action='version', help='Display the version and exit')
self.add_argument('-v', '--verbose', action='store_true', help='Make the logging more verbose')
self.add_argument('--datetime-fmt', default='%Y-%m-%d %H:%M:%S', help='Format string for datetimes')
self.add_argument('--log-fmt', default='%(levelname)s %(message)s', help='Format string for printed log output')
self.add_argument('--log-file-fmt', default='[%(levelname)s] [%(asctime)s] [file:%(pathname)s] [line:%(lineno)d] %(message)s', help='Format string for log file.')
self.add_argument('--log-file', help='File to write log messages to')
self.add_argument('--color', action='store_boolean', default=True, help='color in output')
self.add_argument('-c', '--config-file', help='The config file to read and/or write')
self.add_argument('--save-config', action='store_true', help='Save the running configuration to the config file')
def add_subparsers(self, title='Sub-commands', **kwargs):
if self._inside_context_manager:
raise RuntimeError('You must run this before the with statement!')
self.acquire_lock()
self._subparsers_default = self._arg_defaults.add_subparsers(title=title, dest='subparsers', **kwargs)
self._subparsers = self._arg_parser.add_subparsers(title=title, dest='subparsers', **kwargs)
self.release_lock()
def acquire_lock(self):
"""Acquire the MILC lock for exclusive access to properties.
"""
if self._lock:
self._lock.acquire()
def release_lock(self):
"""Release the MILC lock.
"""
if self._lock:
self._lock.release()
def find_config_file(self):
"""Locate the config file.
"""
if self.config_file:
return self.config_file
if self.args and self.args.general_config_file:
return self.args.general_config_file
return os.path.abspath(os.path.expanduser('~/.%s.ini' % self.prog_name))
def get_argument_name(self, *args, **kwargs):
"""Takes argparse arguments and returns the dest name.
"""
try:
return self._arg_parser._get_optional_kwargs(*args, **kwargs)['dest']
except ValueError:
return self._arg_parser._get_positional_kwargs(*args, **kwargs)['dest']
def argument(self, *args, **kwargs):
"""Decorator to call self.add_argument or self.<subcommand>.add_argument.
"""
if self._inside_context_manager:
raise RuntimeError('You must run this before the with statement!')
def argument_function(handler):
if handler is self._entrypoint:
self.add_argument(*args, **kwargs)
elif handler.__name__ in self.subcommands:
self.subcommands[handler.__name__].add_argument(*args, **kwargs)
else:
raise RuntimeError('Decorated function is not entrypoint or subcommand!')
return handler
return argument_function
def arg_passed(self, arg):
"""Returns True if arg was passed on the command line.
"""
return self.args_passed[arg] in (None, False)
def parse_args(self):
"""Parse the CLI args.
"""
if self.args:
self.log.debug('Warning: Arguments have already been parsed, ignoring duplicate attempt!')
return
argcomplete.autocomplete(self._arg_parser)
self.acquire_lock()
self.args = self._arg_parser.parse_args()
self.args_passed = self._arg_defaults.parse_args()
if 'entrypoint' in self.args:
self._entrypoint = self.args.entrypoint
if self.args.general_config_file:
self.config_file = self.args.general_config_file
self.release_lock()
def read_config(self):
"""Parse the configuration file and determine the runtime configuration.
"""
self.acquire_lock()
self.config_file = self.find_config_file()
if self.config_file and os.path.exists(self.config_file):
config = RawConfigParser(self.config)
config.read(self.config_file)
# Iterate over the config file options and write them into self.config
for section in config.sections():
for option in config.options(section):
value = config.get(section, option)
# Coerce values into useful datatypes
if value.lower() in ['1', 'yes', 'true', 'on']:
value = True
elif value.lower() in ['0', 'no', 'false', 'none', 'off']:
value = False
elif value.replace('.', '').isdigit():
if '.' in value:
value = Decimal(value)
else:
value = int(value)
self.config[section][option] = value
# Fold the CLI args into self.config
for argument in vars(self.args):
if argument in ('subparsers', 'entrypoint'):
continue
if '_' not in argument:
continue
section, option = argument.split('_', 1)
if hasattr(self.args_passed, argument):
self.config[section][option] = getattr(self.args, argument)
else:
if option not in self.config[section]:
self.config[section][option] = getattr(self.args, argument)
self.release_lock()
def save_config(self):
"""Save the current configuration to the config file.
"""
self.log.debug("Saving config file to '%s'", self.config_file)
if not self.config_file:
self.log.warning('%s.config_file file not set, not saving config!', self.__class__.__name__)
return
self.acquire_lock()
config = RawConfigParser()
for section_name, section in self.config._config.items():
config.add_section(section_name)
for option_name, value in section.items():
if section_name == 'general':
if option_name in ['save_config']:
continue
config.set(section_name, option_name, str(value))
with NamedTemporaryFile(mode='w', dir=os.path.dirname(self.config_file), delete=False) as tmpfile:
config.write(tmpfile)
# Move the new config file into place atomically
if os.path.getsize(tmpfile.name) > 0:
os.rename(tmpfile.name, self.config_file)
else:
self.log.warning('Config file saving failed, not replacing %s with %s.', self.config_file, tmpfile.name)
self.release_lock()
def __call__(self):
"""Execute the entrypoint function.
"""
if not self._inside_context_manager:
# If they didn't use the context manager use it ourselves
with self:
self.__call__()
return
if not self._entrypoint:
raise RuntimeError('No entrypoint provided!')
return self._entrypoint(self)
def entrypoint(self, description):
"""Set the entrypoint for when no subcommand is provided.
"""
if self._inside_context_manager:
raise RuntimeError('You must run this before cli()!')
self.acquire_lock()
self.description = description
self.release_lock()
def entrypoint_func(handler):
self.acquire_lock()
self._entrypoint = handler
self.release_lock()
return handler
return entrypoint_func
def add_subcommand(self, handler, description, name=None, **kwargs):
"""Register a subcommand.
If name is not provided we use `handler.__name__`.
"""
if self._inside_context_manager:
raise RuntimeError('You must run this before the with statement!')
if self._subparsers is None:
self.add_subparsers()
if not name:
name = handler.__name__
self.acquire_lock()
kwargs['help'] = description
self.subcommands_default[name] = self._subparsers_default.add_parser(name, **kwargs)
self.subcommands[name] = SubparserWrapper(self, name, self._subparsers.add_parser(name, **kwargs))
self.subcommands[name].set_defaults(entrypoint=handler)
if name not in self.__dict__:
self.__dict__[name] = self.subcommands[name]
else:
self.log.debug("Could not add subcommand '%s' to attributes, key already exists!", name)
self.release_lock()
return handler
def subcommand(self, description, **kwargs):
"""Decorator to register a subcommand.
"""
def subcommand_function(handler):
return self.add_subcommand(handler, description, **kwargs)
return subcommand_function
def setup_logging(self):
"""Called by __enter__() to setup the logging configuration.
"""
if len(logging.root.handlers) != 0:
# This is not a design decision. This is what I'm doing for now until I can examine and think about this situation in more detail.
raise RuntimeError('MILC should be the only system installing root log handlers!')
self.acquire_lock()
if self.config['general']['verbose']:
self.log_print_level = logging.DEBUG
self.log_file = self.config['general']['log_file'] or self.log_file
self.log_file_format = self.config['general']['log_file_fmt']
self.log_file_format = ANSIStrippingFormatter(self.config['general']['log_file_fmt'], self.config['general']['datetime_fmt'])
self.log_format = self.config['general']['log_fmt']
if self.config.general.color:
self.log_format = ANSIEmojiLoglevelFormatter(self.args.general_log_fmt, self.config.general.datetime_fmt)
else:
self.log_format = ANSIStrippingFormatter(self.args.general_log_fmt, self.config.general.datetime_fmt)
if self.log_file:
self.log_file_handler = logging.FileHandler(self.log_file, self.log_file_mode)
self.log_file_handler.setLevel(self.log_file_level)
self.log_file_handler.setFormatter(self.log_file_format)
logging.root.addHandler(self.log_file_handler)
if self.log_print:
self.log_print_handler = logging.StreamHandler(self.log_print_to)
self.log_print_handler.setLevel(self.log_print_level)
self.log_print_handler.setFormatter(self.log_format)
logging.root.addHandler(self.log_print_handler)
self.release_lock()
def __enter__(self):
if self._inside_context_manager:
self.log.debug('Warning: context manager was entered again. This usually means that self.__call__() was called before the with statement. You probably do not want to do that.')
return
self.acquire_lock()
self._inside_context_manager = True
self.release_lock()
colorama.init()
self.parse_args()
self.read_config()
self.setup_logging()
if self.config.general.save_config:
self.save_config()
return self
def __exit__(self, exc_type, exc_val, exc_tb):
self.acquire_lock()
self._inside_context_manager = False
self.release_lock()
if exc_type is not None and not isinstance(SystemExit(), exc_type):
print(exc_type)
logging.exception(exc_val)
exit(255)
cli = MILC()
if __name__ == '__main__':
@cli.argument('-c', '--comma', help='comma in output', default=True, action='store_boolean')
@cli.entrypoint('My useful CLI tool with subcommands.')
def main(cli):
comma = ',' if cli.config.general.comma else ''
cli.log.info('{bg_green}{fg_red}Hello%s World!', comma)
@cli.argument('-n', '--name', help='Name to greet', default='World')
@cli.subcommand('Description of hello subcommand here.')
def hello(cli):
comma = ',' if cli.config.general.comma else ''
cli.log.info('{fg_blue}Hello%s %s!', comma, cli.config.hello.name)
def goodbye(cli):
comma = ',' if cli.config.general.comma else ''
cli.log.info('{bg_red}Goodbye%s %s!', comma, cli.config.goodbye.name)
@cli.argument('-n', '--name', help='Name to greet', default='World')
@cli.subcommand('Think a bit before greeting the user.')
def thinking(cli):
comma = ',' if cli.config.general.comma else ''
spinner = cli.spinner(text='Just a moment...', spinner='earth')
spinner.start()
sleep(2)
spinner.stop()
with cli.spinner(text='Almost there!', spinner='moon'):
sleep(2)
cli.log.info('{fg_cyan}Hello%s %s!', comma, cli.config.thinking.name)
@cli.subcommand('Show off our ANSI colors.')
def pride(cli):
cli.echo('{bg_red} ')
cli.echo('{bg_lightred_ex} ')
cli.echo('{bg_lightyellow_ex} ')
cli.echo('{bg_green} ')
cli.echo('{bg_blue} ')
cli.echo('{bg_magenta} ')
# You can register subcommands using decorators as seen above, or using functions like like this:
cli.add_subcommand(goodbye, 'This will show up in --help output.')
cli.goodbye.add_argument('-n', '--name', help='Name to bid farewell to', default='World')
cli() # Automatically picks between main(), hello() and goodbye()
print(sorted(ansi_colors.keys()))

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lib/python/qmk/__init__.py Normal file
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lib/python/qmk/cli/compile/__init__.py Normal file
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"""Create a keymap directory from a configurator export.
"""
import json
import os
import sys
import subprocess
from milc import cli
import qmk.keymap
import qmk.path
@cli.argument('filename', help='Configurator JSON export')
@cli.entrypoint('Compile a QMK Configurator export.')
def main(cli):
"""Compile a QMK Configurator export.
This command creates a new keymap from a configurator export, overwriting an existing keymap if one exists.
FIXME(skullydazed): add code to check and warn if the keymap already exists
"""
# Error checking
if cli.args.filename == ('-'):
cli.log.error('Reading from STDIN is not (yet) supported.')
exit(1)
if not os.path.exists(qmk.path.normpath(cli.args.filename)):
cli.log.error('JSON file does not exist!')
exit(1)
# Parse the configurator json
with open(qmk.path.normpath(cli.args.filename), 'r') as fd:
user_keymap = json.load(fd)
# Generate the keymap
keymap_path = qmk.path.keymap(user_keymap['keyboard'])
cli.log.info('Creating {fg_cyan}%s{style_reset_all} keymap in {fg_cyan}%s', user_keymap['keymap'], keymap_path)
qmk.keymap.write(user_keymap['keyboard'], user_keymap['keymap'], user_keymap['layout'], user_keymap['layers'])
cli.log.info('Wrote keymap to {fg_cyan}%s/%s/keymap.c', keymap_path, user_keymap['keymap'])
# Compile the keymap
command = ['make', ':'.join((user_keymap['keyboard'], user_keymap['keymap']))]
cli.log.info('Compiling keymap with {fg_cyan}%s\n\n', ' '.join(command))
subprocess.run(command)

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lib/python/qmk/cli/doctor.py Executable file
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"""QMK Python Doctor
Check up for QMK environment.
"""
import shutil
import platform
import os
from milc import cli
@cli.entrypoint('Basic QMK environment checks')
def main(cli):
"""Basic QMK environment checks.
This is currently very simple, it just checks that all the expected binaries are on your system.
TODO(unclaimed):
* [ ] Run the binaries to make sure they work
* [ ] Compile a trivial program with each compiler
* [ ] Check for udev entries on linux
"""
binaries = ['dfu-programmer', 'avrdude', 'dfu-util', 'avr-gcc', 'arm-none-eabi-gcc']
cli.log.info('QMK Doctor is Checking your environment')
ok = True
for binary in binaries:
res = shutil.which(binary)
if res is None:
cli.log.error('{fg_red}QMK can\'t find ' + binary + ' in your path')
ok = False
OS = platform.system()
if OS == "Darwin":
cli.log.info("Detected {fg_cyan}macOS")
elif OS == "Linux":
cli.log.info("Detected {fg_cyan}linux")
test = 'systemctl list-unit-files | grep enabled | grep -i ModemManager'
if os.system(test) == 0:
cli.log.warn("{bg_yellow}Detected modem manager. Please disable it if you are using Pro Micros")
else:
cli.log.info("Assuming {fg_cyan}Windows")
if ok:
cli.log.info('{fg_green}QMK is ready to go')

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lib/python/qmk/cli/hello.py Executable file
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"""QMK Python Hello World
This is an example QMK CLI script.
"""
from milc import cli
@cli.argument('-n', '--name', default='World', help='Name to greet.')
@cli.entrypoint('QMK Hello World.')
def main(cli):
"""Log a friendly greeting.
"""
cli.log.info('Hello, %s!', cli.config.general.name)

0
lib/python/qmk/cli/json/__init__.py Normal file
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54
lib/python/qmk/cli/json/keymap.py Executable file
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"""Generate a keymap.c from a configurator export.
"""
import json
import os
import sys
from milc import cli
import qmk.keymap
@cli.argument('-o', '--output', help='File to write to')
@cli.argument('filename', help='Configurator JSON file')
@cli.entrypoint('Create a keymap.c from a QMK Configurator export.')
def main(cli):
"""Generate a keymap.c from a configurator export.
This command uses the `qmk.keymap` module to generate a keymap.c from a configurator export. The generated keymap is written to stdout, or to a file if -o is provided.
"""
# Error checking
if cli.args.filename == ('-'):
cli.log.error('Reading from STDIN is not (yet) supported.')
cli.print_usage()
exit(1)
if not os.path.exists(qmk.path.normpath(cli.args.filename)):
cli.log.error('JSON file does not exist!')
cli.print_usage()
exit(1)
# Environment processing
if cli.args.output == ('-'):
cli.args.output = None
# Parse the configurator json
with open(qmk.path.normpath(cli.args.filename), 'r') as fd:
user_keymap = json.load(fd)
# Generate the keymap
keymap_c = qmk.keymap.generate(user_keymap['keyboard'], user_keymap['layout'], user_keymap['layers'])
if cli.args.output:
output_dir = os.path.dirname(cli.args.output)
if not os.path.exists(output_dir):
os.makedirs(output_dir)
output_file = qmk.path.normpath(cli.args.output)
with open(output_file, 'w') as keymap_fd:
keymap_fd.write(keymap_c)
cli.log.info('Wrote keymap to %s.', cli.args.output)
else:
print(keymap_c)

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lib/python/qmk/errors.py Normal file
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class NoSuchKeyboardError(Exception):
"""Raised when we can't find a keyboard/keymap directory.
"""
def __init__(self, message):
self.message = message

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lib/python/qmk/keymap.py Normal file
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"""Functions that help you work with QMK keymaps.
"""
import json
import logging
import os
from traceback import format_exc
import qmk.path
from qmk.errors import NoSuchKeyboardError
# The `keymap.c` template to use when a keyboard doesn't have its own
DEFAULT_KEYMAP_C = """#include QMK_KEYBOARD_H
/* THIS FILE WAS GENERATED!
*
* This file was generated by qmk-compile-json. You may or may not want to
* edit it directly.
*/
const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
__KEYMAP_GOES_HERE__
};
"""
def template(keyboard):
"""Returns the `keymap.c` template for a keyboard.
If a template exists in `keyboards/<keyboard>/templates/keymap.c` that
text will be used instead of `DEFAULT_KEYMAP_C`.
Args:
keyboard
The keyboard to return a template for.
"""
template_name = 'keyboards/%s/templates/keymap.c' % keyboard
if os.path.exists(template_name):
with open(template_name, 'r') as fd:
return fd.read()
return DEFAULT_KEYMAP_C
def generate(keyboard, layout, layers):
"""Returns a keymap.c for the specified keyboard, layout, and layers.
Args:
keyboard
The name of the keyboard
layout
The LAYOUT macro this keymap uses.
layers
An array of arrays describing the keymap. Each item in the inner array should be a string that is a valid QMK keycode.
"""
layer_txt = []
for layer_num, layer in enumerate(layers):
if layer_num != 0:
layer_txt[-1] = layer_txt[-1] + ','
layer_keys = ', '.join(layer)
layer_txt.append('\t[%s] = %s(%s)' % (layer_num, layout, layer_keys))
keymap = '\n'.join(layer_txt)
keymap_c = template(keyboard, keymap)
return keymap_c.replace('__KEYMAP_GOES_HERE__', keymap)
def write(keyboard, keymap, layout, layers):
"""Generate the `keymap.c` and write it to disk.
Returns the filename written to.
Args:
keyboard
The name of the keyboard
keymap
The name of the keymap
layout
The LAYOUT macro this keymap uses.
layers
An array of arrays describing the keymap. Each item in the inner array should be a string that is a valid QMK keycode.
"""
keymap_c = generate(keyboard, layout, layers)
keymap_path = qmk.path.keymap(keyboard)
keymap_dir = os.path.join(keymap_path, keymap)
keymap_file = os.path.join(keymap_dir, 'keymap.c')
if not os.path.exists(keymap_dir):
os.makedirs(keymap_dir)
with open(keymap_file, 'w') as keymap_fd:
keymap_fd.write(keymap_c)
return keymap_file

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"""Functions that help us work with files and folders.
"""
import os
def keymap(keyboard):
"""Locate the correct directory for storing a keymap.
Args:
keyboard
The name of the keyboard. Example: clueboard/66/rev3
"""
for directory in ['.', '..', '../..', '../../..', '../../../..', '../../../../..']:
basepath = os.path.normpath(os.path.join('keyboards', keyboard, directory, 'keymaps'))
if os.path.exists(basepath):
return basepath
logging.error('Could not find keymaps directory!')
raise NoSuchKeyboardError('Could not find keymaps directory for: %s' % keyboard)
def normpath(path):
"""Returns the fully resolved absolute path to a file.
This function will return the absolute path to a file as seen from the
directory the script was called from.
"""
if path and path[0] == '/':
return os.path.normpath(path)
return os.path.normpath(os.path.join(os.environ['ORIG_CWD'], path))