mirror of
https://github.com/qmk/qmk_firmware.git
synced 2024-11-24 20:32:58 +00:00
e409fb47f2
* Selectively adding pieces * Adding georgi keymap * Adding more files, fixing make * Smaller makefiles * Fixing make rules * README more inline with QMK's guidelines * Turning off buggy assert * Improving documentation based on a user feedback. * Slightly better schema * Resurrected state machine diagram
466 lines
22 KiB
Python
466 lines
22 KiB
Python
from functools import reduce
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import re
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strings = []
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number_of_strings = -1
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def top_level_split(s):
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"""
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Split `s` by top-level commas only. Commas within parentheses are ignored.
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"""
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# Parse the string tracking whether the current character is within
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# parentheses.
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balance = 0
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parts = []
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part = ""
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for i in range(len(s)):
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c = s[i]
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part += c
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if c == '(':
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balance += 1
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elif c == ')':
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balance -= 1
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elif c == ',' and balance == 0 and not s[i+1] == ',':
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part = part[:-1].strip()
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parts.append(part)
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part = ""
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# Capture last part
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if len(part):
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parts.append(part.strip())
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return parts
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def new_chord(on_pseudolayer, keycodes_hash, has_counter, value1, value2, function, output_buffer, index):
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counter_link = "NULL"
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output_buffer += "uint8_t state_" + str(index) + " = IDLE;\n"
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if has_counter:
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output_buffer += "uint8_t counter_" + str(index) + " = 0;\n"
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counter_link = "&counter_" + str(index)
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output_buffer += "const struct Chord chord_" + str(index) + " PROGMEM = {" + keycodes_hash + ", " + on_pseudolayer + ", &state_" + str(index) + ", " + counter_link + ", " + str(value1) + ", " + str(value2) + ", " + function + "};\n"
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index += 1
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return [output_buffer, index]
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def KC(on_pseudolayer, keycodes_hash, keycode, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, keycode, 0, "single_dance", output_buffer, index)
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def AS(on_pseudolayer, keycodes_hash, keycode, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, True, keycode, 0, "autoshift_dance", output_buffer, index)
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def AT(on_pseudolayer, keycodes_hash, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, 0, 0, "autoshift_toggle", output_buffer, index)
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def KL(on_pseudolayer, keycodes_hash, keycode, to_pseudolayer, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, True, keycode, to_pseudolayer, "key_layer_dance", output_buffer, index)
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def KK(on_pseudolayer, keycodes_hash, keycode1, keycode2, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, True, keycode1, keycode2, "key_key_dance", output_buffer, index)
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def KM(on_pseudolayer, keycodes_hash, keycode, to_pseudolayer, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, keycode, to_pseudolayer, "key_mod_dance", output_buffer, index)
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def MO(on_pseudolayer, keycodes_hash, to_pseudolayer, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, to_pseudolayer, 0, "temp_pseudolayer", output_buffer, index)
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def MO_alt(on_pseudolayer, keycodes_hash, from_pseudolayer, to_pseudolayer, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, to_pseudolayer, from_pseudolayer, "temp_pseudolayer_alt", output_buffer, index)
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def LOCK(on_pseudolayer, keycodes_hash, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, 0, 0, "lock", output_buffer, index)
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def DF(on_pseudolayer, keycodes_hash, to_pseudolayer, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, to_pseudolayer, 0, "perm_pseudolayer", output_buffer, index)
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def TO(on_pseudolayer, keycodes_hash, to_pseudolayer, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, to_pseudolayer, 0, "switch_layer", output_buffer, index)
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def OSK(on_pseudolayer, keycodes_hash, keycode, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, keycode, 0, "one_shot_key", output_buffer, index)
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def OSL(on_pseudolayer, keycodes_hash, to_pseudolayer, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, to_pseudolayer, 0, "one_shot_layer", output_buffer, index)
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def CMD(on_pseudolayer, keycodes_hash, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, 0, 0, "command", output_buffer, index)
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def DM_RECORD(on_pseudolayer, keycodes_hash, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, 0, 0, "dynamic_macro_record", output_buffer, index)
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def DM_NEXT(on_pseudolayer, keycodes_hash, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, 0, 0, "dynamic_macro_next", output_buffer, index)
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def DM_END(on_pseudolayer, keycodes_hash, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, 0, 0, "dynamic_macro_end", output_buffer, index)
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def DM_PLAY(on_pseudolayer, keycodes_hash, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, 0, 0, "dynamic_macro_play", output_buffer, index)
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def LEAD(on_pseudolayer, keycodes_hash, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, 0, 0, "leader", output_buffer, index)
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def CLEAR(on_pseudolayer, keycodes_hash, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, 0, 0, "clear", output_buffer, index)
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def RESET(on_pseudolayer, keycodes_hash, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, False, 0, 0, "reset", output_buffer, index)
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def STR(on_pseudolayer, keycodes_hash, string_input, output_buffer, index, number_of_strings, strings):
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[a, b] = new_chord(on_pseudolayer, keycodes_hash, False, number_of_strings, 0, "string_in", output_buffer, index)
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return [a, b, number_of_strings + 1, strings + [string_input]]
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def M(on_pseudolayer, keycodes_hash, value1, value2, fnc, output_buffer, index):
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return new_chord(on_pseudolayer, keycodes_hash, True, value1, value2, fnc, output_buffer, index)
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def expand_keycode_fnc(DEFINITION):
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if DEFINITION == "`":
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DEFINITION = "GRAVE"
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elif DEFINITION == "-":
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DEFINITION = "MINUS"
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elif DEFINITION == "=":
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DEFINITION = "EQUAL"
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elif DEFINITION == "[":
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DEFINITION = "LBRACKET"
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elif DEFINITION == "]":
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DEFINITION = "RBRACKET"
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elif DEFINITION == "\\":
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DEFINITION = "BSLASH"
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elif DEFINITION == ";":
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DEFINITION = "SCOLON"
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elif DEFINITION == "'":
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DEFINITION = "QUOTE"
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elif DEFINITION == ",":
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DEFINITION = "COMMA"
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elif DEFINITION == ".":
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DEFINITION = "DOT"
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elif DEFINITION == "/":
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DEFINITION = "SLASH"
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elif DEFINITION == "~":
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DEFINITION = "TILDE"
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elif DEFINITION == "*":
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DEFINITION = "ASTERISK"
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elif DEFINITION == "+":
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DEFINITION = "PLUS"
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elif DEFINITION == "(":
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DEFINITION = "LEFT_PAREN"
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elif DEFINITION == ")":
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DEFINITION = "RIGHT_PAREN"
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elif DEFINITION == "<":
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DEFINITION = "LEFT_ANGLE_BRACKET"
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elif DEFINITION == ">":
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DEFINITION = "RIGHT_ANGLE_BRACKET"
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elif DEFINITION == "{":
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DEFINITION = "LEFT_CURLY_BRACE"
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elif DEFINITION == "}":
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DEFINITION = "RIGHT_CURLY_BRACE"
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elif DEFINITION == "?":
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DEFINITION = "QUESTION"
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elif DEFINITION == "~":
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DEFINITION = "TILDE"
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elif DEFINITION == ":":
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DEFINITION = "COLON"
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elif DEFINITION == "_":
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DEFINITION = "UNDERSCORE"
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elif DEFINITION == '"':
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DEFINITION = "DOUBLE_QUOTE"
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elif DEFINITION == "@":
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DEFINITION = "AT"
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elif DEFINITION == "#":
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DEFINITION = "HASH"
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elif DEFINITION == "$":
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DEFINITION = "DOLLAR"
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elif DEFINITION == "!":
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DEFINITION = "EXCLAIM"
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elif DEFINITION == "%":
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DEFINITION = "PERCENT"
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elif DEFINITION == "^":
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DEFINITION = "CIRCUMFLEX"
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elif DEFINITION == "&":
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DEFINITION = "AMPERSAND"
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elif DEFINITION == "|":
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DEFINITION = "PIPE"
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if DEFINITION in [
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"A", "a", "B", "b", "C", "c", "D", "d", "E", "e",
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"F", "f", "G", "g", "H", "h", "I", "i", "J", "j",
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"K", "k", "L", "l", "M", "m", "N", "n", "O", "o",
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"P", "p", "Q", "q", "R", "r", "S", "s", "T", "t",
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"U", "u", "V", "v", "W", "w", "X", "x", "Y", "y",
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"Z", "z", "1", "2", "3", "4", "5", "6", "7", "8",
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"9", "0", "F1", "F2", "F3", "F4", "F5", "F6", "F7",
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"F8", "F9", "F10", "F11", "F12", "F13", "F14", "F15",
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"F16", "F17", "F18", "F19", "F20", "F21", "F22",
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"F23", "F24", "ENTER", "ENT", "ESCAPE", "ESC",
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"BSPACE", "BSPC", "TAB", "SPACE", "SPC", "NONUS_HASH",
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"NUHS", "NONUS_BSLASH", "NUBS", "COMMA", "COMM",
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"DOT", "SLASH", "SLSH", "TILDE", "TILD", "EXCLAIM",
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"EXLM", "AT", "HASH", "DOLLAR", "DLR", "PERCENT",
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"PERC", "CIRCUMFLEX", "CIRC", "AMPERSAND", "AMPR",
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"ASTERISK", "ASTR", "LEFT_PAREN", "LPRN", "RIGHT_PAREN",
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"RPRN", "UNDERSCORE", "UNDS", "PLUS", "LEFT_CURLY_BRACE",
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"LCBR", "RIGHT_CURLY_BRACE", "RCBR", "PIPE", "COLON",
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"COLN", "DOUBLE_QUOTE", "DQUO", "DQT",
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"LEFT_ANGLE_BRACKET", "LABK", "LT", "RIGHT_ANGLE_BRACKET",
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"RABK", "GT", "QUESTION", "QUES", "SCOLON", "SCLN",
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"QUOTE", "QUOT", "LBRACKET", "LBRC", "RBRACKET", "RBRC",
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"BSLASH", "BSLS", "MINUS", "MINS", "EQUAL", "EQL",
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"GRAVE", "GRV", "ZKHK", "CAPSLOCK", "CLCK", "CAPS",
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"SCROLLOCK", "SLCK", "BRMD", "NUMLOCK", "NLCK",
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"LOCKING_CAPS", "LCAP", "LOCKING_NUM", "LNUM",
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"LOCKING_SCROLL", "LSCR", "LCTRL", "LCTL", "LSHIFT",
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"LSFT", "LALT", "LGUI", "LCMD", "LWIN", "RCTRL",
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"RCTL", "RSHIFT", "RSFT", "RALT", "RGUI", "RCMD",
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"RWIN", "INT1", "RO", "INT2", "KANA", "INT3", "JYEN",
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"INT4", "HENK", "INT5", "MHEN", "INT6", "INT7",
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"INT8", "INT9", "LANG1", "HAEN", "LANG2", "HANJ",
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"LANG3", "LANG4", "LANG5", "LANG6", "LANG7", "LANG8",
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"LANG9", "PSCREEN", "PSCR", "PAUSE", "PAUS", "BRK",
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"BRMU", "INSERT", "INS", "HOME", "PGUP", "DELETE",
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"DEL", "END", "PGDOWN", "PGDN", "RIGHT", "RGHT",
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"LEFT", "DOWN", "UP", "APPLICATION", "APP", "POWER",
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"EXECUTE", "EXEC", "HELP", "MENU", "SELECT", "SLCT",
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"STOP", "AGAIN", "AGIN", "UNDO", "CUT", "COPY",
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"PASTE", "PSTE", "FIND", "MUTE", "VOLUP", "VOLDOWN",
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"ALT_ERASE", "ERAS", "SYSREQ", "CANCEL", "CLEAR",
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"CLR", "PRIOR", "RETURN", "SEPARATOR", "OUT", "OPER",
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"CLEAR_AGAIN", "CRSEL", "EXSEL", "SYSTEM_POWER",
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"PWR", "SYSTEM_SLEEP", "SLEP", "SYSTEM_WAKE", "WAKE",
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"AUDIO_MUTE", "MUTE", "AUDIO_VOL_UP", "VOLU",
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"AUDIO_VOL_DOWN", "VOLD", "MEDIA_NEXT_TRACK", "MNXT",
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"MEDIA_PREV_TRACK", "MPRV", "CPRV", "MEDIA_STOP", "MSTP",
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"MEDIA_PLAY_PAUSE", "MPLY", "MEDIA_SELECT", "MSEL",
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"MEDIA_EJECT", "EJCT", "MAIL", "CALCULATOR", "CALC",
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"MY_COMPUTER", "MYCM", "WWW_SEARCH", "WSCH", "WWW_HOME",
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"WHOM", "WWW_BACK", "WBAK", "WWW_FORWARD", "WFWD",
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"WWW_STOP", "WSTP", "WWW_REFRESH", "WREF",
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"WWW_FAVORITES", "WFAV", "MEDIA_FAST_FORWARD", "MFFD",
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"MEDIA_REWIND", "MRWD", "BRIGHTNESS_UP", "BRIU",
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"BRIGHTNESS_DOWN", "BRID", "KP_SLASH", "PSLS",
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"KP_ASTERISK", "PAST", "KP_MINUS", "PMNS", "KP_PLUS",
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"PPLS", "KP_ENTER", "PENT", "KP_1", "P1", "KP_2", "P2",
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"KP_3", "P3", "KP_4", "P4", "KP_5", "P5", "KP_6", "P6",
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"KP_7", "P7", "KP_8", "P8", "KP_9", "P9", "KP_0", "P0",
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"KP_DOT", "PDOT", "KP_EQUAL", "PEQL", "KP_COMMA", "PCMM",
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"MS_BTN1", "BTN1", "MS_BTN2", "BTN2", "MS_BTN3", "BTN3",
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"MS_BTN4", "BTN4", "MS_BTN5", "BTN5", "MS_BTN6", "BTN6",
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"MS_LEFT", "MS_L", "MS_DOWN", "MS_D", "MS_UP", "MS_U",
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"MS_RIGHT", "MS_R", "MS_WH_UP", "WH_U", "MS_WH_DOWN",
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"WH_D", "MS_WH_LEFT", "MS_WH_L", "MS_WH_RIGHT", "MS_WH_R",
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"KC_MS_ACCEL0", "ACL0", "KC_MS_ACCEL1", "ACL1",
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"KC_MS_ACCEL2", "ACL2"
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]:
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return "KC_" + DEFINITION
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else:
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return DEFINITION
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def MK(on_pseudolayer, keycodes_hash, definition, output_buffer, index):
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l = len(definition.split(', '))
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output_buffer += "void function_" + str(index) + "(const struct Chord* self) {\n"
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output_buffer += " switch (*self->state) {\n"
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output_buffer += " case ACTIVATED:\n"
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for i in range(0, l):
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val = definition.split(',')[i].strip()
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code = expand_keycode_fnc(val)
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output_buffer += " key_in(" + code + ");\n"
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output_buffer += " break;\n"
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output_buffer += " case DEACTIVATED:\n"
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for i in range(0, l):
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val = definition.split(',')[i].strip()
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code = expand_keycode_fnc(val)
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output_buffer += " key_out(" + code + ");\n"
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output_buffer += " *self->state = IDLE;\n"
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output_buffer += " break;\n"
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output_buffer += " case RESTART:\n"
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for i in range(0, l):
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val = definition.split(',')[i].strip()
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code = expand_keycode_fnc(val)
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output_buffer += " key_out(" + code + ");\n"
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output_buffer += " break;\n"
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output_buffer += " default:\n"
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output_buffer += " break;\n"
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output_buffer += " };\n"
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output_buffer += "}\n"
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return new_chord(on_pseudolayer, keycodes_hash, True, 0, 0, "function_" + str(index), output_buffer, index)
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def D(on_pseudolayer, keycodes_hash, DEFINITION, output_buffer, index):
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l = len(DEFINITION.split(','))
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output_buffer += "void function_" + str(index) + "(const struct Chord* self) {\n"
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output_buffer += " switch (*self->state) {\n"
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output_buffer += " case ACTIVATED:\n"
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output_buffer += " *self->counter = *self->counter + 1;\n"
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output_buffer += " break;\n"
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output_buffer += " case PRESS_FROM_ACTIVE:\n"
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output_buffer += " switch (*self->counter) {\n"
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for i in range(0, l):
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val = DEFINITION.split(',')[i].strip()
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code = expand_keycode_fnc(val)
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output_buffer += " case " + str(i + 1) + ":\n"
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output_buffer += " key_in( " + code + ");\n"
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output_buffer += " break;\n"
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output_buffer += " default:\n"
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output_buffer += " break;\n"
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output_buffer += " }\n"
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output_buffer += " *self->state = FINISHED_FROM_ACTIVE;\n"
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output_buffer += " break;\n"
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output_buffer += " case FINISHED:\n"
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output_buffer += " switch (*self->counter) {\n"
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for i in range(0, l):
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val = DEFINITION.split(',')[i].strip()
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code = expand_keycode_fnc(val)
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output_buffer += " case " + str(i + 1) + ":\n"
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output_buffer += " tap_key( " + code + ");\n"
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output_buffer += " break;\n"
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output_buffer += " default:\n"
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output_buffer += " break;\n"
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output_buffer += " }\n"
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output_buffer += " *self->counter = 0;\n"
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output_buffer += " *self->state = IDLE;\n"
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output_buffer += " break;\n"
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output_buffer += " case RESTART:\n"
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output_buffer += " switch (*self->counter) {\n"
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for i in range(0, l):
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val = DEFINITION.split(',')[i].strip()
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code = expand_keycode_fnc(val)
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output_buffer += " case " + str(i + 1) + ":\n"
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output_buffer += " key_out( " + code + ");\n"
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output_buffer += " break;\n"
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output_buffer += " default:\n"
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output_buffer += " break;\n"
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output_buffer += " }\n"
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output_buffer += " *self->counter = 0;\n"
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output_buffer += " break;\n"
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output_buffer += " default:\n"
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output_buffer += " break;\n"
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output_buffer += " }\n"
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output_buffer += "}\n"
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return new_chord(on_pseudolayer, keycodes_hash, True, 0, 0, "function_" + str(index), output_buffer, index)
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def O(on_pseudolayer, keycodes_hash, DEFINITION, output_buffer, index):
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if DEFINITION[0:3] == "KC_":
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return OSK(on_pseudolayer, keycodes_hash, DEFINITION, output_buffer, index)
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else:
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return OSL(on_pseudolayer, keycodes_hash, DEFINITION, output_buffer, index)
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def add_key(PSEUDOLAYER, KEYCODES_HASH, DEFINITION, output_buffer, index, number_of_strings, strings):
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# if "= {" + KEYCODES_HASH + ", " + PSEUDOLAYER in output_buffer:
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# KEYCODES_HASH = re.sub('H_', '', KEYCODES_HASH)
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# raise Exception("You are trying to register a chord that you already registered (" + KEYCODES_HASH + ", " + PSEUDOLAYER + ")")
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if DEFINITION == "":
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return [output_buffer, index, number_of_strings, strings]
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else:
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split = DEFINITION.split("(")
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type = split[0].strip()
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if len(split) == 1:
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if type == "LOCK":
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[output_buffer, index] = LOCK(PSEUDOLAYER, KEYCODES_HASH, output_buffer, index)
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elif type == "AT":
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[output_buffer, index] = AT(PSEUDOLAYER, KEYCODES_HASH, output_buffer, index)
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elif type == "CMD":
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[output_buffer, index] = CMD(PSEUDOLAYER, KEYCODES_HASH, output_buffer, index)
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elif type == "LEAD":
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[output_buffer, index] = LEAD(PSEUDOLAYER, KEYCODES_HASH, output_buffer, index)
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elif type == "DM_RECORD":
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[output_buffer, index] = DM_RECORD(PSEUDOLAYER, KEYCODES_HASH, output_buffer, index)
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elif type == "DM_NEXT":
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[output_buffer, index] = DM_NEXT(PSEUDOLAYER, KEYCODES_HASH, output_buffer, index)
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elif type == "DM_END":
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[output_buffer, index] = DM_END(PSEUDOLAYER, KEYCODES_HASH, output_buffer, index)
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elif type == "DM_PLAY":
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[output_buffer, index] = DM_PLAY(PSEUDOLAYER, KEYCODES_HASH, output_buffer, index)
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elif type == "CLEAR_KB":
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[output_buffer, index] = CLEAR(PSEUDOLAYER, KEYCODES_HASH, output_buffer, index)
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elif type == "RESET":
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[output_buffer, index] = RESET(PSEUDOLAYER, KEYCODES_HASH, output_buffer, index)
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else:
|
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code = expand_keycode_fnc(type)
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[output_buffer, index] = KC(PSEUDOLAYER, KEYCODES_HASH, code, output_buffer, index)
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else:
|
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val = split[1][:-1].strip()
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if type == "O":
|
|
code = expand_keycode_fnc(val)
|
|
[output_buffer, index] = O(PSEUDOLAYER, KEYCODES_HASH, code, output_buffer, index)
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elif type == "D":
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[output_buffer, index] = D(PSEUDOLAYER, KEYCODES_HASH, val, output_buffer, index)
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elif type == "MK":
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[output_buffer, index] = MK(PSEUDOLAYER, KEYCODES_HASH, val, output_buffer, index)
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elif type == "M":
|
|
fnc = val.split(',')[0].strip()
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|
val1 = val.split(',')[1].strip()
|
|
val2 = val.split(',')[2].strip()
|
|
[output_buffer, index] = M(PSEUDOLAYER, KEYCODES_HASH, val1, val2, fnc, output_buffer, index)
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elif type == "KK":
|
|
val1 = val.split(',')[0].strip()
|
|
code1 = expand_keycode_fnc(val1)
|
|
val2 = val.split(',')[1].strip()
|
|
code2 = expand_keycode_fnc(val2)
|
|
[output_buffer, index] = KK(PSEUDOLAYER, KEYCODES_HASH, code1, code2, output_buffer, index)
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elif type == "KL":
|
|
val1 = val.split(',')[0].strip()
|
|
code1 = expand_keycode_fnc(val1)
|
|
val2 = val.split(',')[1].strip()
|
|
[output_buffer, index] = KL(PSEUDOLAYER, KEYCODES_HASH, code1, val2, output_buffer, index)
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|
elif type == "KM":
|
|
val1 = val.split(',')[0].strip()
|
|
code1 = expand_keycode_fnc(val1)
|
|
val2 = val.split(',')[1].strip()
|
|
code2 = expand_keycode_fnc(val2)
|
|
[output_buffer, index] = KM(PSEUDOLAYER, KEYCODES_HASH, code1, code2, output_buffer, index)
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elif type == "AS":
|
|
code = expand_keycode_fnc(val)
|
|
[output_buffer, index] = AS(PSEUDOLAYER, KEYCODES_HASH, code, output_buffer, index)
|
|
elif type == "MO":
|
|
if not ',' in val:
|
|
[output_buffer, index] = MO(PSEUDOLAYER, KEYCODES_HASH, val, output_buffer, index)
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|
else:
|
|
val1 = val.split(',')[0].strip()
|
|
val2 = val.split(',')[1].strip()
|
|
[output_buffer, index] = MO_alt(PSEUDOLAYER, KEYCODES_HASH, val1, val2, output_buffer, index)
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|
elif type == "DF":
|
|
[output_buffer, index] = DF(PSEUDOLAYER, KEYCODES_HASH, val, output_buffer, index)
|
|
elif type == "TO":
|
|
[output_buffer, index] = TO(PSEUDOLAYER, KEYCODES_HASH, val, output_buffer, index)
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|
elif type == "STR":
|
|
[output_buffer, index, number_of_strings, strings] = STR(PSEUDOLAYER, KEYCODES_HASH, val, output_buffer, index, number_of_strings, strings)
|
|
return [output_buffer, index, number_of_strings, strings]
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|
|
|
def add_leader_combo(DEFINITION, FUNCTION):
|
|
return list_of_leader_combos.append([DEFINITION, FUNCTION])
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|
|
|
def add_chord_set(PSEUDOLAYER, INPUT_STRING, TYPE, data, output_buffer, index, number_of_strings, strings):
|
|
chord_set = {}
|
|
for set in data["chord_sets"]:
|
|
if set["name"] == TYPE:
|
|
chord_set = set["chords"]
|
|
break
|
|
|
|
separated_string = top_level_split(INPUT_STRING)
|
|
for word, chord in zip(separated_string, chord_set):
|
|
chord_hash = reduce((lambda x, y: str(x) + " + " + str(y)), ["H_" + key for key in chord])
|
|
[output_buffer, index, number_of_strings, strings] = add_key(PSEUDOLAYER, chord_hash, word, output_buffer, index, number_of_strings, strings)
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|
|
|
return [output_buffer, index, number_of_strings, strings]
|
|
|
|
def add_dictionary(PSEUDOLAYER, keycodes, array, output_buffer, index, number_of_strings, strings):
|
|
for chord in array:
|
|
hash = ""
|
|
for word, key in zip(chord[:-1], keycodes):
|
|
if word == "X":
|
|
hash = hash + " + H_" + key
|
|
hash = hash[3:]
|
|
if hash != "":
|
|
[output_buffer, index, number_of_strings, strings] = add_key(PSEUDOLAYER, hash, chord[-1], output_buffer, index, number_of_strings, strings)
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|
|
|
return [output_buffer, index, number_of_strings, strings]
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|
|
|
def secret_chord(PSEUDOLAYER, ACTION, INPUT_STRING, data, output_buffer, index, number_of_strings, strings):
|
|
separated_string = top_level_split(INPUT_STRING)
|
|
hash = ""
|
|
for word, key in zip(separated_string, data["keys"]):
|
|
if word == "X":
|
|
hash = hash + " + H_" + key
|
|
|
|
hash = hash[3:]
|
|
if hash != "":
|
|
return add_key(PSEUDOLAYER, hash, ACTION, output_buffer, index, number_of_strings, strings) |