2019-04-08 02:20:09 +00:00
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#!/usr/bin/env python3
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# -*- coding: utf-8 -*-
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import layout
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import re
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# TODO: auto-generate mutex layers
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# TODO: auto-generate update_tri_layer (_state)
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def gen_uc_iter():
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length = len(layout.uc_dict)
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2019-04-30 04:35:34 +00:00
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for key, value in sorted(layout.uc_dict.items()):
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2019-04-08 02:20:09 +00:00
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length -= 1
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if length:
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yield (key, value, False)
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else:
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yield (key, value, True)
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def translate(s):
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if re.match("^[0-9]$", s):
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return ("KC_{0}".format(s), " {0} ".format(s))
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elif re.match("^[a-z]$", s):
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return ("KC_{0}".format(s.upper()), " {0} ".format(s))
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elif re.match("^[A-Z]$", s):
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return ("S(KC_{0})".format(s), " {0} ".format(s))
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elif re.match("^F[0-9]{1,2}$", s): # Fn, works from F0 to F99
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return ("KC_{0}".format(s), "{0:^7}".format(s))
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elif re.match("^DF[0-9]{1,2}$", s): # DFn, works from DF0 to DF99
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return ("DF({0})".format(s[2:]), "{0:^7}".format(s))
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elif re.match("^MO[0-9]{1,2}$", s): # MOn, works from MO0 to MO99
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return ("MO({0})".format(s[2:]), "{0:^7}".format(s))
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elif re.match("^OSL[0-9]{1,2}$", s): # OSLn, works from OSL0 to OSL99
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return ("OSL({0})".format(s[3:]), "{0:^7}".format(s))
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elif re.match("^TG[0-9]{1,2}$", s): # TGn, works from TG0 to TG99
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return ("TG({0})".format(s[2:]), "{0:^7}".format(s))
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elif re.match("^TO[0-9]{1,2}$", s): # Tn, works from TO0 to TO99
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return ("TO({0})".format(s[2:]), "{0:^7}".format(s))
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elif re.match("^TT[0-9]{1,2}$", s): # Tn, works from TT0 to TT99
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return ("TT({0})".format(s[2:]), "{0:^7}".format(s))
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elif s in layout.uc_dict:
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return ("X("+s+")", " {0} ".format(chr(int(layout.uc_dict[s], 0))))
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elif s in layout.qmk_dict:
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return (layout.qmk_dict[s], "{0:^7}".format(s))
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elif s == s.upper() and s.startswith("KC_"):
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return (s, "{0:^7}".format(s[2:]))
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else:
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return ("XXXXXXX", " {0} ".format(chr(128165)))
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def toKC(s):
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(kc, lgd) = translate(s)
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return kc
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def toLgd(s):
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(kc, lgd) = translate(s)
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return lgd
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if __name__ == "__main__":
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template = open("km_template.txt", mode="r")
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output = open("keymap.c", mode="w", encoding='utf-8')
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doCopy = False
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for line in template:
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doCopy = True
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if line.startswith("//<enum/>"):
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doCopy = False
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# output.write(str(layout.uc_dict))
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for k, v, isLast in gen_uc_iter():
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if isLast:
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output.write(k + "\n")
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else:
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output.write(k + ",\n")
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if line.startswith("//<uc_map/>"):
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doCopy = False
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for k, v, isLast in gen_uc_iter():
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if isLast:
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output.write(u"\t[{0}] = {1} // {2}\n".format(k, v, chr(int(v, 0))))
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else:
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output.write(u"\t[{0}] = {1}, // {2}\n".format(k, v, chr(int(v, 0))))
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if line.startswith("//<keymaps/>"):
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doCopy = False
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counter = len(layout.layers)
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layer = 0
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S = layout.static
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for L in layout.layers:
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counter -= 1
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r_counter = 4
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output.write("/* Layer %d\n" % layer)
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output.write(" * ------------------------------------------------- -------------------------------------------------\n")
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output.write(" * |{0}|{1}|{2}|{3}|{4}|{5}| |{6}|{7}|{8}|{9}|{10}|{11}|\n".format(toLgd(L[0][0]), toLgd(L[0][1]), toLgd(L[0][2]), toLgd(L[0][3]), toLgd(L[0][4]), toLgd(L[0][5]), toLgd(L[0][6]), toLgd(L[0][7]), toLgd(L[0][8]), toLgd(L[0][9]), toLgd(L[0][10]), toLgd(L[0][11])))
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output.write(" * ------------------------------------------------- -------------------------------------------------\n")
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output.write(" * |{0}|{1}|{2}|{3}|{4}|{5}| |{6}|{7}|{8}|{9}|{10}|{11}|\n".format(toLgd(L[1][0]), toLgd(L[1][1]), toLgd(L[1][2]), toLgd(L[1][3]), toLgd(L[1][4]), toLgd(L[1][5]), toLgd(L[1][6]), toLgd(L[1][7]), toLgd(L[1][8]), toLgd(L[1][9]), toLgd(L[1][10]), toLgd(L[1][11])))
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output.write(" * ------------------------------------------------- -------------------------------------------------\n")
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output.write(" * |{0}|{1}|{2}|{3}|{4}|{5}| |{6}|{7}|{8}|{9}|{10}|{11}|\n".format(toLgd(L[2][0]), toLgd(L[2][1]), toLgd(L[2][2]), toLgd(L[2][3]), toLgd(L[2][4]), toLgd(L[2][5]), toLgd(L[2][6]), toLgd(L[2][7]), toLgd(L[2][8]), toLgd(L[2][9]), toLgd(L[2][10]), toLgd(L[2][11])))
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output.write(" * -----------------------------------------------------------------------------------------------------------------\n")
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output.write(" * {0} {1} {2} |{3}|{4}|{5}|{6}|{7}|{8}| {9} {10} {11}".format(toLgd(L[3][0]), toLgd(L[3][1]), toLgd(L[3][2]), toLgd(L[3][3]), toLgd(L[3][4]), toLgd(L[3][5]), toLgd(L[3][6]), toLgd(L[3][7]), toLgd(L[3][8]), toLgd(L[3][9]), toLgd(L[3][10]), toLgd(L[3][11])).rstrip()+"\n")
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output.write(" * -------------------------------------------------\n")
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output.write(" */\n")
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2019-04-20 06:37:19 +00:00
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l_code = '\tLAYOUT_ortho_4x12(\n'
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2019-04-08 02:20:09 +00:00
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for r in range(r_counter):
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r_counter -= 1
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c_counter = 12
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l_code += '\t\t'
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for c in range(c_counter):
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c_counter -= 1
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if c != 0:
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l_code += " "
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l_code += "%s" % toKC(L[r][c])
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if r_counter or c_counter:
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l_code += ","
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l_code += '\n'
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if counter:
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l_code += "\t),\n\n"
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else:
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l_code += "\t)\n"
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output.write(l_code)
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layer += 1
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if doCopy:
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output.write(line)
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template.close()
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output.close()
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