input-remapper/keymapper/dev/macros.py
2020-11-29 01:53:20 +01:00

298 lines
8.8 KiB
Python

#!/usr/bin/python3
# -*- coding: utf-8 -*-
# key-mapper - GUI for device specific keyboard mappings
# Copyright (C) 2020 sezanzeb <proxima@hip70890b.de>
#
# This file is part of key-mapper.
#
# key-mapper is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# key-mapper is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with key-mapper. If not, see <https://www.gnu.org/licenses/>.
"""Executes more complex patterns of keystrokes.
To keep it short on the UI, the available functions are one-letter long.
The outermost macro (in the examples below the one created by 'r',
'r' and 'w') will be started, which triggers a chain reaction to execute
all of the configured stuff.
Examples
--------
r(3, k(a).w(10)): a <10ms> a <10ms> a
r(2, k(a).k(-)).k(b): a - a - b
w(1000).m(SHIFT_L, r(2, k(a))).w(10).k(b): <1s> A A <10ms> b
"""
import asyncio
import re
from keymapper.logger import logger
from keymapper.config import config
# for debugging purposes
MODIFIER = 1
CHILD_MACRO = 2
SLEEP = 3
REPEAT = 4
KEYSTROKE = 5
DEBUG = 6
class _Macro:
"""Supports chaining and preparing actions."""
def __init__(self, handler, depth):
"""Create a macro instance that can be populated with tasks.
Parameters
----------
handler : func
A function that accepts keycodes as the first parameter and the
key-press state as the second. 1 for down and 0 for up. The
macro will write to this function once executed with `.run()`.
depth : int
0 for the outermost parent macro, 1 or greater for child macros,
like the second argument of repeat.
"""
self.tasks = []
self.handler = handler
self.depth = depth
async def run(self):
"""Run the macro."""
for _, task in self.tasks:
coroutine = task()
if asyncio.iscoroutine(coroutine):
await coroutine
def stop(self):
"""Stop the macro."""
# TODO
def modify(self, modifier, macro):
"""Do stuff while a modifier is activated.
Parameters
----------
modifier : str
macro : _Macro
"""
self.tasks.append((MODIFIER, lambda: self.handler(modifier, 1)))
self.add_keycode_pause()
self.tasks.append((CHILD_MACRO, macro.run))
self.add_keycode_pause()
self.tasks.append((MODIFIER, lambda: self.handler(modifier, 0)))
self.add_keycode_pause()
return self
def repeat(self, repeats, macro):
"""Repeat actions.
Parameters
----------
repeats : int
macro : _Macro
"""
for _ in range(repeats):
self.tasks.append((CHILD_MACRO, macro.run))
return self
def add_keycode_pause(self):
"""To add a pause between keystrokes."""
sleeptime = config.get_keystroke_sleep() / 1000
async def sleep():
await asyncio.sleep(sleeptime)
self.tasks.append((SLEEP, sleep))
def keycode(self, character):
"""Write the character."""
self.tasks.append((KEYSTROKE, lambda: self.handler(character, 1)))
self.add_keycode_pause()
self.tasks.append((KEYSTROKE, lambda: self.handler(character, 0)))
self.add_keycode_pause()
return self
def wait(self, sleeptime):
"""Wait time in milliseconds."""
sleeptime /= 1000
async def sleep():
await asyncio.sleep(sleeptime)
self.tasks.append((SLEEP, sleep))
return self
def _extract_params(inner):
"""Extract parameters from the inner contents of a call.
Parameters
----------
inner : string
for example 'r, r(2, k(a))' should result in ['r', 'r(2, k(a)']
"""
inner = inner.strip()
brackets = 0
params = []
start = 0
for position, char in enumerate(inner):
if char == '(':
brackets += 1
if char == ')':
brackets -= 1
if (char == ',') and brackets == 0:
# , potentially starts another parameter, but only if
# the current brackets are all closed.
params.append(inner[start:position].strip())
# skip the comma
start = position + 1
if brackets == 0 and start != len(inner):
# one last parameter
params.append(inner[start:].strip())
return params
def _count_brackets(macro):
"""Find where the first opening bracket closes."""
brackets = 0
position = 0
for char in macro:
position += 1
if char == '(':
brackets += 1
continue
if char == ')':
brackets -= 1
if brackets < 0:
raise Exception(f'There is one ")" too much at {position}')
if brackets == 0:
# the closing bracket of the call
break
if brackets != 0:
raise Exception(f'There are {brackets} closing brackets missing')
return brackets, position
def _parse_recurse(macro, handler, macro_instance=None, depth=0):
"""Handle a subset of the macro, e.g. one parameter or function call.
Parameters
----------
macro : string
Just like parse
handler : function
passed to _Macro constructors
macro_instance : _Macro or None
A macro instance to add tasks to
depth : int
"""
# to anyone who knows better about compilers and thinks this is horrible:
# please make a pull request. Because it probably is.
# not using eval for security reasons ofc. And this syntax doesn't need
# string quotes for its params.
# If this gets more complicated than that I'd rather make a macro
# editor GUI and store them as json.
assert isinstance(macro, str)
assert callable(handler)
assert isinstance(depth, int)
if macro_instance is None:
macro_instance = _Macro(handler, depth)
else:
assert isinstance(macro_instance, _Macro)
macro = macro.strip()
space = ' ' * depth
# is it another macro?
call_match = re.match(r'^(\w+)\(', macro)
call = call_match[1] if call_match else None
if call is not None:
# available functions in the macro
functions = {
'm': macro_instance.modify,
'r': macro_instance.repeat,
'k': macro_instance.keycode,
'w': macro_instance.wait
}
if functions.get(call) is None:
raise Exception(f'Unknown function {call}')
# get all the stuff inbetween
brackets, position = _count_brackets(macro)
inner = macro[2:position - 1]
# split "3, k(a).w(10)" into parameters
string_params = _extract_params(inner)
logger.spam('%scalls %s with %s', space, call, string_params)
# evaluate the params
params = [
_parse_recurse(param.strip(), handler, None, depth + 1)
for param in string_params
]
logger.spam('%sadd call to %s with %s', space, call, params)
functions[call](*params)
# is after this another call? Chain it to the macro_instance
if len(macro) > position and macro[position] == '.':
chain = macro[position + 1:]
logger.spam('%sfollowed by %s', space, chain)
_parse_recurse(chain, handler, macro_instance, depth)
return macro_instance
# probably a parameter for an outer function
try:
macro = int(macro)
except ValueError:
pass
logger.spam('%s%s %s', space, type(macro), macro)
return macro
def parse(macro, handler):
"""parse and generate a _Macro that can be run as often as you want.
Parameters
----------
macro : string
"r(3, k(a).w(10))"
"r(2, k(a).k(-)).k(b)"
"w(1000).m(SHIFT_L, r(2, k(a))).w(10, 20).k(b)"
handler : func
A function that accepts keycodes as the first parameter and the
key-press state as the second. 1 for down and 0 for up. The
macro will write to this function once executed with `.run()`.
"""
# whitespaces, tabs, newlines and such don't serve a purpose. make
# the log output clearer and the parsing easier.
macro = re.sub(r'\s', '', macro)
logger.spam('preparing macro %s for later execution', macro)
try:
return _parse_recurse(macro, handler)
except Exception as error:
logger.error('Failed to parse macro "%s": %s', macro, error)
return None