774 řádky
26 KiB
Python
Spustitelný soubor
774 řádky
26 KiB
Python
Spustitelný soubor
#!/usr/bin/env python3
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# KLL Compiler
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# Keyboard Layout Langauge
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#
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# Copyright (C) 2014-2015 by Jacob Alexander
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#
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# This file is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# This file is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this file. If not, see <http://www.gnu.org/licenses/>.
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### Imports ###
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import argparse
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import importlib
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import io
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import os
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import re
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import sys
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import token
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from pprint import pformat
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from re import VERBOSE
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from tokenize import generate_tokens
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from kll_lib.containers import *
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from kll_lib.hid_dict import *
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from funcparserlib.lexer import make_tokenizer, Token, LexerError
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from funcparserlib.parser import (some, a, many, oneplus, skip, finished, maybe, skip, forward_decl, NoParseError)
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### Decorators ###
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## Print Decorator Variables
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ERROR = '\033[5;1;31mERROR\033[0m:'
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## Python Text Formatting Fixer...
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## Because the creators of Python are averse to proper capitalization.
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textFormatter_lookup = {
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"usage: " : "Usage: ",
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"optional arguments" : "Optional Arguments",
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}
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def textFormatter_gettext( s ):
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return textFormatter_lookup.get( s, s )
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argparse._ = textFormatter_gettext
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### Argument Parsing ###
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def checkFileExists( filename ):
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if not os.path.isfile( filename ):
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print ( "{0} {1} does not exist...".format( ERROR, filename ) )
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sys.exit( 1 )
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def processCommandLineArgs():
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# Setup argument processor
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pArgs = argparse.ArgumentParser(
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usage="%(prog)s [options] <file1>...",
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description="Generates .h file state tables and pointer indices from KLL .kll files.",
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epilog="Example: {0} mykeyboard.kll -d colemak.kll -p hhkbpro2.kll -p symbols.kll".format( os.path.basename( sys.argv[0] ) ),
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formatter_class=argparse.RawTextHelpFormatter,
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add_help=False,
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)
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# Positional Arguments
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pArgs.add_argument( 'files', type=str, nargs='+',
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help=argparse.SUPPRESS ) # Suppressed help output, because Python output is verbosely ugly
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# Optional Arguments
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pArgs.add_argument( '-b', '--backend', type=str, default="kiibohd",
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help="Specify target backend for the KLL compiler.\n"
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"Default: kiibohd\n"
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"Options: kiibohd, json" )
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pArgs.add_argument( '-d', '--default', type=str, nargs='+',
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help="Specify .kll files to layer on top of the default map to create a combined map." )
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pArgs.add_argument( '-p', '--partial', type=str, nargs='+', action='append',
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help="Specify .kll files to generate partial map, multiple files per flag.\n"
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"Each -p defines another partial map.\n"
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"Base .kll files (that define the scan code maps) must be defined for each partial map." )
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pArgs.add_argument( '-t', '--templates', type=str, nargs='+',
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help="Specify template used to generate the keymap.\n"
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"Default: <backend specific>" )
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pArgs.add_argument( '-o', '--outputs', type=str, nargs='+',
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help="Specify output file. Writes to current working directory by default.\n"
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"Default: <backend specific>" )
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pArgs.add_argument( '-h', '--help', action="help",
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help="This message." )
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# Process Arguments
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args = pArgs.parse_args()
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# Parameters
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baseFiles = args.files
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defaultFiles = args.default
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partialFileSets = args.partial
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if defaultFiles is None:
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defaultFiles = []
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if partialFileSets is None:
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partialFileSets = [[]]
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# Check file existance
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for filename in baseFiles:
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checkFileExists( filename )
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for filename in defaultFiles:
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checkFileExists( filename )
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for partial in partialFileSets:
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for filename in partial:
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checkFileExists( filename )
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return (baseFiles, defaultFiles, partialFileSets, args.backend, args.templates, args.outputs)
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### Tokenizer ###
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def tokenize( string ):
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"""str -> Sequence(Token)"""
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# Basic Tokens Spec
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specs = [
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( 'Comment', ( r' *#.*', ) ),
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( 'Space', ( r'[ \t\r\n]+', ) ),
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( 'USBCode', ( r'U(("[^"]+")|(0x[0-9a-fA-F]+)|([0-9]+))', ) ),
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( 'USBCodeStart', ( r'U\[', ) ),
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( 'ConsCode', ( r'CONS(("[^"]+")|(0x[0-9a-fA-F]+)|([0-9]+))', ) ),
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( 'ConsCodeStart', ( r'CONS\[', ) ),
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( 'SysCode', ( r'SYS(("[^"]+")|(0x[0-9a-fA-F]+)|([0-9]+))', ) ),
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( 'SysCodeStart', ( r'SYS\[', ) ),
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( 'LedCode', ( r'LED(("[^"]+")|(0x[0-9a-fA-F]+)|([0-9]+))', ) ),
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( 'LedCodeStart', ( r'LED\[', ) ),
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( 'ScanCode', ( r'S((0x[0-9a-fA-F]+)|([0-9]+))', ) ),
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( 'ScanCodeStart', ( r'S\[', ) ),
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( 'CodeEnd', ( r'\]', ) ),
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( 'String', ( r'"[^"]*"', VERBOSE ) ),
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( 'SequenceString', ( r"'[^']*'", ) ),
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( 'Operator', ( r'=>|:\+|:-|:|=', ) ),
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( 'Comma', ( r',', ) ),
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( 'Dash', ( r'-', ) ),
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( 'Plus', ( r'\+', ) ),
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( 'Parenthesis', ( r'\(|\)', ) ),
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( 'None', ( r'None', ) ),
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( 'Number', ( r'-?(0x[0-9a-fA-F]+)|(0|([1-9][0-9]*))', VERBOSE ) ),
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( 'Name', ( r'[A-Za-z_][A-Za-z_0-9]*', ) ),
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( 'VariableContents', ( r'''[^"' ;:=>()]+''', ) ),
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( 'EndOfLine', ( r';', ) ),
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]
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# Tokens to filter out of the token stream
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useless = ['Space', 'Comment']
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tokens = make_tokenizer( specs )
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return [x for x in tokens( string ) if x.type not in useless]
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### Parsing ###
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## Map Arrays
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macros_map = Macros()
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variables_dict = Variables()
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capabilities_dict = Capabilities()
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## Parsing Functions
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def make_scanCode( token ):
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scanCode = int( token[1:], 0 )
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# Check size, to make sure it's valid
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if scanCode > 0xFF:
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print ( "{0} ScanCode value {1} is larger than 255".format( ERROR, scanCode ) )
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raise
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return scanCode
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def make_hidCode( type, token ):
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# If first character is a U, strip
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if token[0] == "U":
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token = token[1:]
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# CONS specifier
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elif 'CONS' in token:
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token = token[4:]
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# SYS specifier
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elif 'SYS' in token:
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token = token[3:]
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# If using string representation of USB Code, do lookup, case-insensitive
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if '"' in token:
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try:
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hidCode = kll_hid_lookup_dictionary[ type ][ token[1:-1].upper() ][1]
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except LookupError as err:
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print ( "{0} {1} is an invalid USB HID Code Lookup...".format( ERROR, err ) )
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raise
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else:
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# Already tokenized
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if type == 'USBCode' and token[0] == 'USB' or type == 'SysCode' and token[0] == 'SYS' or type == 'ConsCode' and token[0] == 'CONS':
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hidCode = token[1]
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# Convert
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else:
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hidCode = int( token, 0 )
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# Check size if a USB Code, to make sure it's valid
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if type == 'USBCode' and hidCode > 0xFF:
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print ( "{0} USBCode value {1} is larger than 255".format( ERROR, hidCode ) )
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raise
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# Return a tuple, identifying which type it is
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if type == 'USBCode':
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return make_usbCode_number( hidCode )
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elif type == 'ConsCode':
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return make_consCode_number( hidCode )
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elif type == 'SysCode':
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return make_sysCode_number( hidCode )
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print ( "{0} Unknown HID Specifier '{1}'".format( ERROR, type ) )
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raise
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def make_usbCode( token ):
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return make_hidCode( 'USBCode', token )
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def make_consCode( token ):
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return make_hidCode( 'ConsCode', token )
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def make_sysCode( token ):
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return make_hidCode( 'SysCode', token )
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def make_hidCode_number( type, token ):
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lookup = {
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'ConsCode' : 'CONS',
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'SysCode' : 'SYS',
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'USBCode' : 'USB',
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}
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return ( lookup[ type ], token )
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def make_usbCode_number( token ):
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return make_hidCode_number( 'USBCode', token )
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def make_consCode_number( token ):
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return make_hidCode_number( 'ConsCode', token )
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def make_sysCode_number( token ):
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return make_hidCode_number( 'SysCode', token )
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# Replace key-word with None specifier (which indicates a noneOut capability)
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def make_none( token ):
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return [[[('NONE', 0)]]]
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def make_seqString( token ):
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# Shifted Characters, and amount to move by to get non-shifted version
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# US ANSI
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shiftCharacters = (
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( "ABCDEFGHIJKLMNOPQRSTUVWXYZ", 0x20 ),
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( "+", 0x12 ),
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( "&(", 0x11 ),
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( "!#$%<>", 0x10 ),
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( "*", 0x0E ),
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( ")", 0x07 ),
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( '"', 0x05 ),
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( ":", 0x01 ),
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( "^", -0x10 ),
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( "_", -0x18 ),
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( "{}|~", -0x1E ),
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( "@", -0x32 ),
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( "?", -0x38 ),
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)
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listOfLists = []
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shiftKey = kll_hid_lookup_dictionary['USBCode']["SHIFT"]
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# Creates a list of USB codes from the string: sequence (list) of combos (lists)
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for char in token[1:-1]:
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processedChar = char
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# Whether or not to create a combo for this sequence with a shift
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shiftCombo = False
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# Depending on the ASCII character, convert to single character or Shift + character
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for pair in shiftCharacters:
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if char in pair[0]:
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shiftCombo = True
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processedChar = chr( ord( char ) + pair[1] )
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break
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# Do KLL HID Lookup on non-shifted character
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# NOTE: Case-insensitive, which is why the shift must be pre-computed
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usbCode = kll_hid_lookup_dictionary['USBCode'][ processedChar.upper() ]
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# Create Combo for this character, add shift key if shifted
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charCombo = []
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if shiftCombo:
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charCombo = [ [ shiftKey ] ]
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charCombo.append( [ usbCode ] )
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# Add to list of lists
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listOfLists.append( charCombo )
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return listOfLists
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def make_string( token ):
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return token[1:-1]
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def make_unseqString( token ):
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return token[1:-1]
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def make_number( token ):
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return int( token, 0 )
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# Range can go from high to low or low to high
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def make_scanCode_range( rangeVals ):
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start = rangeVals[0]
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end = rangeVals[1]
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# Swap start, end if start is greater than end
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if start > end:
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start, end = end, start
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# Iterate from start to end, and generate the range
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return list( range( start, end + 1 ) )
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# Range can go from high to low or low to high
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# Warn on 0-9 for USBCodes (as this does not do what one would expect) TODO
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# Lookup USB HID tags and convert to a number
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def make_hidCode_range( type, rangeVals ):
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# Check if already integers
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if isinstance( rangeVals[0], int ):
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start = rangeVals[0]
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else:
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start = make_hidCode( type, rangeVals[0] )[1]
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if isinstance( rangeVals[1], int ):
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end = rangeVals[1]
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else:
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end = make_hidCode( type, rangeVals[1] )[1]
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# Swap start, end if start is greater than end
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if start > end:
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start, end = end, start
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# Iterate from start to end, and generate the range
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listRange = list( range( start, end + 1 ) )
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# Convert each item in the list to a tuple
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for item in range( len( listRange ) ):
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listRange[ item ] = make_hidCode_number( type, listRange[ item ] )
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return listRange
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def make_usbCode_range( rangeVals ):
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return make_hidCode_range( 'USBCode', rangeVals )
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def make_sysCode_range( rangeVals ):
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return make_hidCode_range( 'SysCode', rangeVals )
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def make_consCode_range( rangeVals ):
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return make_hidCode_range( 'ConsCode', rangeVals )
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## Base Rules
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const = lambda x: lambda _: x
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unarg = lambda f: lambda x: f(*x)
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flatten = lambda list: sum( list, [] )
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tokenValue = lambda x: x.value
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tokenType = lambda t: some( lambda x: x.type == t ) >> tokenValue
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operator = lambda s: a( Token( 'Operator', s ) ) >> tokenValue
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parenthesis = lambda s: a( Token( 'Parenthesis', s ) ) >> tokenValue
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eol = a( Token( 'EndOfLine', ';' ) )
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def listElem( item ):
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return [ item ]
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def listToTuple( items ):
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return tuple( items )
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# Flatten only the top layer (list of lists of ...)
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def oneLayerFlatten( items ):
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mainList = []
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for sublist in items:
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for item in sublist:
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mainList.append( item )
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return mainList
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# Capability arguments may need to be expanded (e.g. 1 16 bit argument needs to be 2 8 bit arguments for the state machine)
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def capArgExpander( items ):
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newArgs = []
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# For each defined argument in the capability definition
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for arg in range( 0, len( capabilities_dict[ items[0] ][1] ) ):
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argLen = capabilities_dict[ items[0] ][1][ arg ][1]
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num = items[1][ arg ]
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byteForm = num.to_bytes( argLen, byteorder='little' ) # XXX Yes, little endian from how the uC structs work
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# For each sub-argument, split into byte-sized chunks
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for byte in range( 0, argLen ):
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newArgs.append( byteForm[ byte ] )
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return tuple( [ items[0], tuple( newArgs ) ] )
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# Expand ranges of values in the 3rd dimension of the list, to a list of 2nd lists
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# i.e. [ sequence, [ combo, [ range ] ] ] --> [ [ sequence, [ combo ] ], <option 2>, <option 3> ]
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def optionExpansion( sequences ):
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expandedSequences = []
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# Total number of combinations of the sequence of combos that needs to be generated
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totalCombinations = 1
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# List of leaf lists, with number of leaves
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maxLeafList = []
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# Traverse to the leaf nodes, and count the items in each leaf list
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for sequence in sequences:
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for combo in sequence:
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rangeLen = len( combo )
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totalCombinations *= rangeLen
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maxLeafList.append( rangeLen )
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# Counter list to keep track of which combination is being generated
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curLeafList = [0] * len( maxLeafList )
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# Generate a list of permuations of the sequence of combos
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for count in range( 0, totalCombinations ):
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expandedSequences.append( [] ) # Prepare list for adding the new combination
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position = 0
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# Traverse sequence of combos to generate permuation
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for sequence in sequences:
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expandedSequences[ -1 ].append( [] )
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for combo in sequence:
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expandedSequences[ -1 ][ -1 ].append( combo[ curLeafList[ position ] ] )
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position += 1
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# Increment combination tracker
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for leaf in range( 0, len( curLeafList ) ):
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curLeafList[ leaf ] += 1
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# Reset this position, increment next position (if it exists), then stop
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if curLeafList[ leaf ] >= maxLeafList[ leaf ]:
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curLeafList[ leaf ] = 0
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if leaf + 1 < len( curLeafList ):
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curLeafList[ leaf + 1 ] += 1
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return expandedSequences
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# Converts USB Codes into Capabilities
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# These are tuples (<type>, <integer>)
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def hidCodeToCapability( items ):
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# Items already converted to variants using optionExpansion
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for variant in range( 0, len( items ) ):
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# Sequence of Combos
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for sequence in range( 0, len( items[ variant ] ) ):
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for combo in range( 0, len( items[ variant ][ sequence ] ) ):
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if items[ variant ][ sequence ][ combo ][0] in backend.requiredCapabilities.keys():
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try:
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# Use backend capability name and a single argument
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items[ variant ][ sequence ][ combo ] = tuple(
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[ backend.capabilityLookup( items[ variant ][ sequence ][ combo ][0] ),
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tuple( [ hid_lookup_dictionary[ items[ variant ][ sequence ][ combo ] ] ] ) ]
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)
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except KeyError:
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print ( "{0} {1} is an invalid HID lookup value".format( ERROR, items[ variant ][ sequence ][ combo ] ) )
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sys.exit( 1 )
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return items
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# Convert tuple of tuples to list of lists
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def listit( t ):
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return list( map( listit, t ) ) if isinstance( t, ( list, tuple ) ) else t
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# Convert list of lists to tuple of tuples
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def tupleit( t ):
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return tuple( map( tupleit, t ) ) if isinstance( t, ( tuple, list ) ) else t
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## Evaluation Rules
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def eval_scanCode( triggers, operator, results ):
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# Convert to lists of lists of lists to tuples of tuples of tuples
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# Tuples are non-mutable, and can be used has index items
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triggers = tuple( tuple( tuple( sequence ) for sequence in variant ) for variant in triggers )
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results = tuple( tuple( tuple( sequence ) for sequence in variant ) for variant in results )
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|
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# Lookup interconnect id (Current file scope)
|
|
# Default to 0 if not specified
|
|
if 'ConnectId' not in variables_dict.overallVariables.keys():
|
|
id_num = 0
|
|
else:
|
|
id_num = int( variables_dict.overallVariables['ConnectId'] )
|
|
|
|
# Iterate over all combinations of triggers and results
|
|
for sequence in triggers:
|
|
# Convert tuple of tuples to list of lists so each element can be modified
|
|
trigger = listit( sequence )
|
|
|
|
# Create ScanCode entries for trigger
|
|
for seq_index, combo in enumerate( sequence ):
|
|
for com_index, scancode in enumerate( combo ):
|
|
trigger[ seq_index ][ com_index ] = macros_map.scanCodeStore.append( ScanCode( scancode, id_num ) )
|
|
|
|
# Convert back to a tuple of tuples
|
|
trigger = tupleit( trigger )
|
|
|
|
for result in results:
|
|
# Append Case
|
|
if operator == ":+":
|
|
macros_map.appendScanCode( trigger, result )
|
|
|
|
# Remove Case
|
|
elif operator == ":-":
|
|
macros_map.removeScanCode( trigger, result )
|
|
|
|
# Replace Case
|
|
elif operator == ":":
|
|
macros_map.replaceScanCode( trigger, result )
|
|
|
|
def eval_usbCode( triggers, operator, results ):
|
|
# Convert to lists of lists of lists to tuples of tuples of tuples
|
|
# Tuples are non-mutable, and can be used has index items
|
|
triggers = tuple( tuple( tuple( sequence ) for sequence in variant ) for variant in triggers )
|
|
results = tuple( tuple( tuple( sequence ) for sequence in variant ) for variant in results )
|
|
|
|
# Iterate over all combinations of triggers and results
|
|
for trigger in triggers:
|
|
scanCodes = macros_map.lookupUSBCodes( trigger )
|
|
for scanCode in scanCodes:
|
|
for result in results:
|
|
# Cache assignment until file finishes processing
|
|
macros_map.cacheAssignment( operator, scanCode, result )
|
|
|
|
def eval_variable( name, content ):
|
|
# Content might be a concatenation of multiple data types, convert everything into a single string
|
|
assigned_content = ""
|
|
for item in content:
|
|
assigned_content += str( item )
|
|
|
|
variables_dict.assignVariable( name, assigned_content )
|
|
|
|
def eval_capability( name, function, args ):
|
|
capabilities_dict[ name ] = [ function, args ]
|
|
|
|
def eval_define( name, cdefine_name ):
|
|
variables_dict.defines[ name ] = cdefine_name
|
|
|
|
map_scanCode = unarg( eval_scanCode )
|
|
map_usbCode = unarg( eval_usbCode )
|
|
|
|
set_variable = unarg( eval_variable )
|
|
set_capability = unarg( eval_capability )
|
|
set_define = unarg( eval_define )
|
|
|
|
|
|
## Sub Rules
|
|
|
|
usbCode = tokenType('USBCode') >> make_usbCode
|
|
scanCode = tokenType('ScanCode') >> make_scanCode
|
|
consCode = tokenType('ConsCode') >> make_consCode
|
|
sysCode = tokenType('SysCode') >> make_sysCode
|
|
none = tokenType('None') >> make_none
|
|
name = tokenType('Name')
|
|
number = tokenType('Number') >> make_number
|
|
comma = tokenType('Comma')
|
|
dash = tokenType('Dash')
|
|
plus = tokenType('Plus')
|
|
content = tokenType('VariableContents')
|
|
string = tokenType('String') >> make_string
|
|
unString = tokenType('String') # When the double quotes are still needed for internal processing
|
|
seqString = tokenType('SequenceString') >> make_seqString
|
|
unseqString = tokenType('SequenceString') >> make_unseqString # For use with variables
|
|
|
|
# Code variants
|
|
code_end = tokenType('CodeEnd')
|
|
|
|
# Scan Codes
|
|
scanCode_start = tokenType('ScanCodeStart')
|
|
scanCode_range = number + skip( dash ) + number >> make_scanCode_range
|
|
scanCode_listElem = number >> listElem
|
|
scanCode_innerList = oneplus( ( scanCode_range | scanCode_listElem ) + skip( maybe( comma ) ) ) >> flatten
|
|
scanCode_expanded = skip( scanCode_start ) + scanCode_innerList + skip( code_end )
|
|
scanCode_elem = scanCode >> listElem
|
|
scanCode_combo = oneplus( ( scanCode_expanded | scanCode_elem ) + skip( maybe( plus ) ) )
|
|
scanCode_sequence = oneplus( scanCode_combo + skip( maybe( comma ) ) )
|
|
|
|
# USB Codes
|
|
usbCode_start = tokenType('USBCodeStart')
|
|
usbCode_number = number >> make_usbCode_number
|
|
usbCode_range = ( usbCode_number | unString ) + skip( dash ) + ( number | unString ) >> make_usbCode_range
|
|
usbCode_listElemTag = unString >> make_usbCode
|
|
usbCode_listElem = ( usbCode_number | usbCode_listElemTag ) >> listElem
|
|
usbCode_innerList = oneplus( ( usbCode_range | usbCode_listElem ) + skip( maybe( comma ) ) ) >> flatten
|
|
usbCode_expanded = skip( usbCode_start ) + usbCode_innerList + skip( code_end )
|
|
usbCode_elem = usbCode >> listElem
|
|
usbCode_combo = oneplus( ( usbCode_expanded | usbCode_elem ) + skip( maybe( plus ) ) ) >> listElem
|
|
usbCode_sequence = oneplus( ( usbCode_combo | seqString ) + skip( maybe( comma ) ) ) >> oneLayerFlatten
|
|
|
|
# Cons Codes
|
|
consCode_start = tokenType('ConsCodeStart')
|
|
consCode_number = number >> make_consCode_number
|
|
consCode_range = ( consCode_number | unString ) + skip( dash ) + ( number | unString ) >> make_consCode_range
|
|
consCode_listElemTag = unString >> make_consCode
|
|
consCode_listElem = ( consCode_number | consCode_listElemTag ) >> listElem
|
|
consCode_innerList = oneplus( ( consCode_range | consCode_listElem ) + skip( maybe( comma ) ) ) >> flatten
|
|
consCode_expanded = skip( consCode_start ) + consCode_innerList + skip( code_end )
|
|
consCode_elem = consCode >> listElem
|
|
|
|
# Sys Codes
|
|
sysCode_start = tokenType('SysCodeStart')
|
|
sysCode_number = number >> make_sysCode_number
|
|
sysCode_range = ( sysCode_number | unString ) + skip( dash ) + ( number | unString ) >> make_sysCode_range
|
|
sysCode_listElemTag = unString >> make_sysCode
|
|
sysCode_listElem = ( sysCode_number | sysCode_listElemTag ) >> listElem
|
|
sysCode_innerList = oneplus( ( sysCode_range | sysCode_listElem ) + skip( maybe( comma ) ) ) >> flatten
|
|
sysCode_expanded = skip( sysCode_start ) + sysCode_innerList + skip( code_end )
|
|
sysCode_elem = sysCode >> listElem
|
|
|
|
# HID Codes
|
|
hidCode_elem = usbCode_expanded | usbCode_elem | sysCode_expanded | sysCode_elem | consCode_expanded | consCode_elem
|
|
|
|
# Capabilities
|
|
capFunc_arguments = many( number + skip( maybe( comma ) ) ) >> listToTuple
|
|
capFunc_elem = name + skip( parenthesis('(') ) + capFunc_arguments + skip( parenthesis(')') ) >> capArgExpander >> listElem
|
|
capFunc_combo = oneplus( ( hidCode_elem | capFunc_elem ) + skip( maybe( plus ) ) ) >> listElem
|
|
capFunc_sequence = oneplus( ( capFunc_combo | seqString ) + skip( maybe( comma ) ) ) >> oneLayerFlatten
|
|
|
|
# Trigger / Result Codes
|
|
triggerCode_outerList = scanCode_sequence >> optionExpansion
|
|
triggerUSBCode_outerList = usbCode_sequence >> optionExpansion >> hidCodeToCapability
|
|
resultCode_outerList = ( ( capFunc_sequence >> optionExpansion ) | none ) >> hidCodeToCapability
|
|
|
|
|
|
## Main Rules
|
|
|
|
#| <variable> = <variable contents>;
|
|
variable_contents = name | content | string | number | comma | dash | unseqString
|
|
variable_expression = name + skip( operator('=') ) + oneplus( variable_contents ) + skip( eol ) >> set_variable
|
|
|
|
#| <capability name> => <c function>;
|
|
capability_arguments = name + skip( operator(':') ) + number + skip( maybe( comma ) )
|
|
capability_expression = name + skip( operator('=>') ) + name + skip( parenthesis('(') ) + many( capability_arguments ) + skip( parenthesis(')') ) + skip( eol ) >> set_capability
|
|
|
|
#| <define name> => <c define>;
|
|
define_expression = name + skip( operator('=>') ) + name + skip( eol ) >> set_define
|
|
|
|
#| <trigger> : <result>;
|
|
operatorTriggerResult = operator(':') | operator(':+') | operator(':-')
|
|
scanCode_expression = triggerCode_outerList + operatorTriggerResult + resultCode_outerList + skip( eol ) >> map_scanCode
|
|
usbCode_expression = triggerUSBCode_outerList + operatorTriggerResult + resultCode_outerList + skip( eol ) >> map_usbCode
|
|
|
|
def parse( tokenSequence ):
|
|
"""Sequence(Token) -> object"""
|
|
|
|
# Top-level Parser
|
|
expression = scanCode_expression | usbCode_expression | variable_expression | capability_expression | define_expression
|
|
|
|
kll_text = many( expression )
|
|
kll_file = maybe( kll_text ) + skip( finished )
|
|
|
|
return kll_file.parse( tokenSequence )
|
|
|
|
|
|
|
|
def processKLLFile( filename ):
|
|
with open( filename ) as file:
|
|
data = file.read()
|
|
tokenSequence = tokenize( data )
|
|
#print ( pformat( tokenSequence ) ) # Display tokenization
|
|
try:
|
|
tree = parse( tokenSequence )
|
|
except NoParseError as e:
|
|
print("Error parsing %s. %s" % (filename, e.msg), file=sys.stderr)
|
|
sys.exit(1)
|
|
|
|
|
|
### Misc Utility Functions ###
|
|
|
|
def gitRevision( kllPath ):
|
|
import subprocess
|
|
|
|
# Change the path to where kll.py is
|
|
origPath = os.getcwd()
|
|
os.chdir( kllPath )
|
|
|
|
# Just in case git can't be found
|
|
try:
|
|
# Get hash of the latest git commit
|
|
revision = subprocess.check_output( ['git', 'rev-parse', 'HEAD'] ).decode()[:-1]
|
|
|
|
# Get list of files that have changed since the commit
|
|
changed = subprocess.check_output( ['git', 'diff-index', '--name-only', 'HEAD', '--'] ).decode().splitlines()
|
|
except:
|
|
revision = "<no git>"
|
|
changed = []
|
|
|
|
# Change back to the old working directory
|
|
os.chdir( origPath )
|
|
|
|
return revision, changed
|
|
|
|
|
|
### Main Entry Point ###
|
|
|
|
if __name__ == '__main__':
|
|
(baseFiles, defaultFiles, partialFileSets, backend_name, templates, outputs) = processCommandLineArgs()
|
|
|
|
# Look up git information on the compiler
|
|
gitRev, gitChanges = gitRevision( os.path.dirname( os.path.realpath( __file__ ) ) )
|
|
|
|
# Load backend module
|
|
global backend
|
|
backend_import = importlib.import_module( "backends.{0}".format( backend_name ) )
|
|
backend = backend_import.Backend( templates )
|
|
|
|
# Process base layout files
|
|
for filename in baseFiles:
|
|
variables_dict.setCurrentFile( filename )
|
|
processKLLFile( filename )
|
|
macros_map.completeBaseLayout() # Indicates to macros_map that the base layout is complete
|
|
variables_dict.baseLayoutFinished()
|
|
|
|
# Default combined layer
|
|
for filename in defaultFiles:
|
|
variables_dict.setCurrentFile( filename )
|
|
processKLLFile( filename )
|
|
# Apply assignment cache, see 5.1.2 USB Codes for why this is necessary
|
|
macros_map.replayCachedAssignments()
|
|
|
|
# Iterate through additional layers
|
|
for partial in partialFileSets:
|
|
# Increment layer for each -p option
|
|
macros_map.addLayer()
|
|
variables_dict.incrementLayer() # DefaultLayer is layer 0
|
|
|
|
# Iterate and process each of the file in the layer
|
|
for filename in partial:
|
|
variables_dict.setCurrentFile( filename )
|
|
processKLLFile( filename )
|
|
|
|
# Apply assignment cache, see 5.1.2 USB Codes for why this is necessary
|
|
macros_map.replayCachedAssignments()
|
|
# Remove un-marked keys to complete the partial layer
|
|
macros_map.removeUnmarked()
|
|
|
|
# Do macro correlation and transformation
|
|
macros_map.generate()
|
|
|
|
# Process needed templating variables using backend
|
|
backend.process(
|
|
capabilities_dict,
|
|
macros_map,
|
|
variables_dict,
|
|
gitRev,
|
|
gitChanges
|
|
)
|
|
|
|
# Generate output file using template and backend
|
|
backend.generate( outputs )
|
|
|
|
# Successful Execution
|
|
sys.exit( 0 )
|
|
|