1# Orca 2# 3# Copyright 2014 Igalia, S.L. 4# 5# Author: Joanmarie Diggs <jdiggs@igalia.com> 6# 7# This library is free software; you can redistribute it and/or 8# modify it under the terms of the GNU Lesser General Public 9# License as published by the Free Software Foundation; either 10# version 2.1 of the License, or (at your option) any later version. 11# 12# This library is distributed in the hope that it will be useful, 13# but WITHOUT ANY WARRANTY; without even the implied warranty of 14# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 15# Lesser General Public License for more details. 16# 17# You should have received a copy of the GNU Lesser General Public 18# License along with this library; if not, write to the 19# Free Software Foundation, Inc., Franklin Street, Fifth Floor, 20# Boston MA 02110-1301 USA. 21 22__id__ = "$Id$" 23__version__ = "$Revision$" 24__date__ = "$Date$" 25__copyright__ = "Copyright (c) 2014 Igalia, S.L." 26__license__ = "LGPL" 27 28import re 29import unicodedata 30 31from .orca_i18n import _, C_ 32 33fallbackOnUnicodeData = False 34 35SPEAK_NEVER = 1 36SPEAK_ALWAYS = 2 37SPEAK_FOR_CHARS = 3 38speakStyle = SPEAK_ALWAYS 39 40_all = {} 41_alnum = {} 42_arrows = {} 43_operators = {} 44_shapes = {} 45_combining = {} 46 47# Note that the following are to help us identify what is likely a math symbol 48# (as opposed to one serving the function of an image in "This way up.") 49_arrows.update(dict.fromkeys(map(chr, range(0x2190, 0x2200)))) 50_arrows.update(dict.fromkeys(map(chr, range(0x2750, 0x2800)))) 51_arrows.update(dict.fromkeys(map(chr, range(0x2b30, 0x2b50)))) 52_operators.update(dict.fromkeys(map(chr, range(0x2220, 0x2300)))) 53_operators.update(dict.fromkeys(map(chr, range(0x2a00, 0x2b00)))) 54_shapes.update(dict.fromkeys(map(chr, range(0x25a0, 0x2600)))) 55 56# Unicode has a huge number of individual symbols to include styles, such as 57# bold, italic, double-struck, etc. These are so far not supported by speech 58# synthesizers. So we'll maintain a dictionary of equivalent symbols which 59# speech synthesizers should know along with lists of the various styles. 60_alnum['\u2102'] = 'C' 61_alnum['\u210a'] = 'g' 62_alnum['\u210b'] = 'H' 63_alnum['\u210c'] = 'H' 64_alnum['\u210d'] = 'H' 65_alnum['\u210e'] = 'h' 66_alnum['\u2110'] = 'I' 67_alnum['\u2111'] = 'I' 68_alnum['\u2112'] = 'L' 69_alnum['\u2113'] = 'l' 70_alnum['\u2115'] = 'N' 71_alnum['\u2119'] = 'P' 72_alnum['\u211a'] = 'Q' 73_alnum['\u211b'] = 'R' 74_alnum['\u211c'] = 'R' 75_alnum['\u211d'] = 'R' 76_alnum['\u2124'] = 'Z' 77_alnum['\u2128'] = 'Z' 78_alnum['\u212c'] = 'B' 79_alnum['\u212d'] = 'C' 80_alnum['\u212f'] = 'e' 81_alnum['\u2130'] = 'E' 82_alnum['\u2131'] = 'F' 83_alnum['\u2133'] = 'M' 84_alnum['\u2134'] = 'o' 85_alnum['\U0001d400'] = 'A' 86_alnum['\U0001d401'] = 'B' 87_alnum['\U0001d402'] = 'C' 88_alnum['\U0001d403'] = 'D' 89_alnum['\U0001d404'] = 'E' 90_alnum['\U0001d405'] = 'F' 91_alnum['\U0001d406'] = 'G' 92_alnum['\U0001d407'] = 'H' 93_alnum['\U0001d408'] = 'I' 94_alnum['\U0001d409'] = 'J' 95_alnum['\U0001d40a'] = 'K' 96_alnum['\U0001d40b'] = 'L' 97_alnum['\U0001d40c'] = 'M' 98_alnum['\U0001d40d'] = 'N' 99_alnum['\U0001d40e'] = 'O' 100_alnum['\U0001d40f'] = 'P' 101_alnum['\U0001d410'] = 'Q' 102_alnum['\U0001d411'] = 'R' 103_alnum['\U0001d412'] = 'S' 104_alnum['\U0001d413'] = 'T' 105_alnum['\U0001d414'] = 'U' 106_alnum['\U0001d415'] = 'V' 107_alnum['\U0001d416'] = 'W' 108_alnum['\U0001d417'] = 'X' 109_alnum['\U0001d418'] = 'Y' 110_alnum['\U0001d419'] = 'Z' 111_alnum['\U0001d41a'] = 'a' 112_alnum['\U0001d41b'] = 'b' 113_alnum['\U0001d41c'] = 'c' 114_alnum['\U0001d41d'] = 'd' 115_alnum['\U0001d41e'] = 'e' 116_alnum['\U0001d41f'] = 'f' 117_alnum['\U0001d420'] = 'g' 118_alnum['\U0001d421'] = 'h' 119_alnum['\U0001d422'] = 'i' 120_alnum['\U0001d423'] = 'j' 121_alnum['\U0001d424'] = 'k' 122_alnum['\U0001d425'] = 'l' 123_alnum['\U0001d426'] = 'm' 124_alnum['\U0001d427'] = 'n' 125_alnum['\U0001d428'] = 'o' 126_alnum['\U0001d429'] = 'p' 127_alnum['\U0001d42a'] = 'q' 128_alnum['\U0001d42b'] = 'r' 129_alnum['\U0001d42c'] = 's' 130_alnum['\U0001d42d'] = 't' 131_alnum['\U0001d42e'] = 'u' 132_alnum['\U0001d42f'] = 'v' 133_alnum['\U0001d430'] = 'w' 134_alnum['\U0001d431'] = 'x' 135_alnum['\U0001d432'] = 'y' 136_alnum['\U0001d433'] = 'z' 137_alnum['\U0001d434'] = 'A' 138_alnum['\U0001d435'] = 'B' 139_alnum['\U0001d436'] = 'C' 140_alnum['\U0001d437'] = 'D' 141_alnum['\U0001d438'] = 'E' 142_alnum['\U0001d439'] = 'F' 143_alnum['\U0001d43a'] = 'G' 144_alnum['\U0001d43b'] = 'H' 145_alnum['\U0001d43c'] = 'I' 146_alnum['\U0001d43d'] = 'J' 147_alnum['\U0001d43e'] = 'K' 148_alnum['\U0001d43f'] = 'L' 149_alnum['\U0001d440'] = 'M' 150_alnum['\U0001d441'] = 'N' 151_alnum['\U0001d442'] = 'O' 152_alnum['\U0001d443'] = 'P' 153_alnum['\U0001d444'] = 'Q' 154_alnum['\U0001d445'] = 'R' 155_alnum['\U0001d446'] = 'S' 156_alnum['\U0001d447'] = 'T' 157_alnum['\U0001d448'] = 'U' 158_alnum['\U0001d449'] = 'V' 159_alnum['\U0001d44a'] = 'W' 160_alnum['\U0001d44b'] = 'X' 161_alnum['\U0001d44c'] = 'Y' 162_alnum['\U0001d44d'] = 'Z' 163_alnum['\U0001d44e'] = 'a' 164_alnum['\U0001d44f'] = 'b' 165_alnum['\U0001d450'] = 'c' 166_alnum['\U0001d451'] = 'd' 167_alnum['\U0001d452'] = 'e' 168_alnum['\U0001d453'] = 'f' 169_alnum['\U0001d454'] = 'g' 170_alnum['\U0001d456'] = 'i' 171_alnum['\U0001d457'] = 'j' 172_alnum['\U0001d458'] = 'k' 173_alnum['\U0001d459'] = 'l' 174_alnum['\U0001d45a'] = 'm' 175_alnum['\U0001d45b'] = 'n' 176_alnum['\U0001d45c'] = 'o' 177_alnum['\U0001d45d'] = 'p' 178_alnum['\U0001d45e'] = 'q' 179_alnum['\U0001d45f'] = 'r' 180_alnum['\U0001d460'] = 's' 181_alnum['\U0001d461'] = 't' 182_alnum['\U0001d462'] = 'u' 183_alnum['\U0001d463'] = 'v' 184_alnum['\U0001d464'] = 'w' 185_alnum['\U0001d465'] = 'x' 186_alnum['\U0001d466'] = 'y' 187_alnum['\U0001d467'] = 'z' 188_alnum['\U0001d468'] = 'A' 189_alnum['\U0001d469'] = 'B' 190_alnum['\U0001d46a'] = 'C' 191_alnum['\U0001d46b'] = 'D' 192_alnum['\U0001d46c'] = 'E' 193_alnum['\U0001d46d'] = 'F' 194_alnum['\U0001d46e'] = 'G' 195_alnum['\U0001d46f'] = 'H' 196_alnum['\U0001d470'] = 'I' 197_alnum['\U0001d471'] = 'J' 198_alnum['\U0001d472'] = 'K' 199_alnum['\U0001d473'] = 'L' 200_alnum['\U0001d474'] = 'M' 201_alnum['\U0001d475'] = 'N' 202_alnum['\U0001d476'] = 'O' 203_alnum['\U0001d477'] = 'P' 204_alnum['\U0001d478'] = 'Q' 205_alnum['\U0001d479'] = 'R' 206_alnum['\U0001d47a'] = 'S' 207_alnum['\U0001d47b'] = 'T' 208_alnum['\U0001d47c'] = 'U' 209_alnum['\U0001d47d'] = 'V' 210_alnum['\U0001d47e'] = 'W' 211_alnum['\U0001d47f'] = 'X' 212_alnum['\U0001d480'] = 'Y' 213_alnum['\U0001d481'] = 'Z' 214_alnum['\U0001d482'] = 'a' 215_alnum['\U0001d483'] = 'b' 216_alnum['\U0001d484'] = 'c' 217_alnum['\U0001d485'] = 'd' 218_alnum['\U0001d486'] = 'e' 219_alnum['\U0001d487'] = 'f' 220_alnum['\U0001d488'] = 'g' 221_alnum['\U0001d489'] = 'h' 222_alnum['\U0001d48a'] = 'i' 223_alnum['\U0001d48b'] = 'j' 224_alnum['\U0001d48c'] = 'k' 225_alnum['\U0001d48d'] = 'l' 226_alnum['\U0001d48e'] = 'm' 227_alnum['\U0001d48f'] = 'n' 228_alnum['\U0001d490'] = 'o' 229_alnum['\U0001d491'] = 'p' 230_alnum['\U0001d492'] = 'q' 231_alnum['\U0001d493'] = 'r' 232_alnum['\U0001d494'] = 's' 233_alnum['\U0001d495'] = 't' 234_alnum['\U0001d496'] = 'u' 235_alnum['\U0001d497'] = 'v' 236_alnum['\U0001d498'] = 'w' 237_alnum['\U0001d499'] = 'x' 238_alnum['\U0001d49a'] = 'y' 239_alnum['\U0001d49b'] = 'z' 240_alnum['\U0001d49c'] = 'A' 241_alnum['\U0001d49e'] = 'C' 242_alnum['\U0001d49f'] = 'D' 243_alnum['\U0001d4a2'] = 'G' 244_alnum['\U0001d4a5'] = 'J' 245_alnum['\U0001d4a6'] = 'K' 246_alnum['\U0001d4a9'] = 'N' 247_alnum['\U0001d4aa'] = 'O' 248_alnum['\U0001d4ab'] = 'P' 249_alnum['\U0001d4ac'] = 'Q' 250_alnum['\U0001d4ae'] = 'S' 251_alnum['\U0001d4af'] = 'T' 252_alnum['\U0001d4b0'] = 'U' 253_alnum['\U0001d4b1'] = 'V' 254_alnum['\U0001d4b2'] = 'W' 255_alnum['\U0001d4b3'] = 'X' 256_alnum['\U0001d4b4'] = 'Y' 257_alnum['\U0001d4b5'] = 'Z' 258_alnum['\U0001d4b6'] = 'a' 259_alnum['\U0001d4b7'] = 'b' 260_alnum['\U0001d4b8'] = 'c' 261_alnum['\U0001d4b9'] = 'd' 262_alnum['\U0001d4bb'] = 'f' 263_alnum['\U0001d4bd'] = 'h' 264_alnum['\U0001d4be'] = 'i' 265_alnum['\U0001d4bf'] = 'j' 266_alnum['\U0001d4c0'] = 'k' 267_alnum['\U0001d4c1'] = 'l' 268_alnum['\U0001d4c2'] = 'm' 269_alnum['\U0001d4c3'] = 'n' 270_alnum['\U0001d4c5'] = 'p' 271_alnum['\U0001d4c6'] = 'q' 272_alnum['\U0001d4c7'] = 'r' 273_alnum['\U0001d4c8'] = 's' 274_alnum['\U0001d4c9'] = 't' 275_alnum['\U0001d4ca'] = 'u' 276_alnum['\U0001d4cb'] = 'v' 277_alnum['\U0001d4cc'] = 'w' 278_alnum['\U0001d4cd'] = 'x' 279_alnum['\U0001d4ce'] = 'y' 280_alnum['\U0001d4cf'] = 'z' 281_alnum['\U0001d4d0'] = 'A' 282_alnum['\U0001d4d1'] = 'B' 283_alnum['\U0001d4d2'] = 'C' 284_alnum['\U0001d4d3'] = 'D' 285_alnum['\U0001d4d4'] = 'E' 286_alnum['\U0001d4d5'] = 'F' 287_alnum['\U0001d4d6'] = 'G' 288_alnum['\U0001d4d7'] = 'H' 289_alnum['\U0001d4d8'] = 'I' 290_alnum['\U0001d4d9'] = 'J' 291_alnum['\U0001d4da'] = 'K' 292_alnum['\U0001d4db'] = 'L' 293_alnum['\U0001d4dc'] = 'M' 294_alnum['\U0001d4dd'] = 'N' 295_alnum['\U0001d4de'] = 'O' 296_alnum['\U0001d4df'] = 'P' 297_alnum['\U0001d4e0'] = 'Q' 298_alnum['\U0001d4e1'] = 'R' 299_alnum['\U0001d4e2'] = 'S' 300_alnum['\U0001d4e3'] = 'T' 301_alnum['\U0001d4e4'] = 'U' 302_alnum['\U0001d4e5'] = 'V' 303_alnum['\U0001d4e6'] = 'W' 304_alnum['\U0001d4e7'] = 'X' 305_alnum['\U0001d4e8'] = 'Y' 306_alnum['\U0001d4e9'] = 'Z' 307_alnum['\U0001d4ea'] = 'a' 308_alnum['\U0001d4eb'] = 'b' 309_alnum['\U0001d4ec'] = 'c' 310_alnum['\U0001d4ed'] = 'd' 311_alnum['\U0001d4ee'] = 'e' 312_alnum['\U0001d4ef'] = 'f' 313_alnum['\U0001d4f0'] = 'g' 314_alnum['\U0001d4f1'] = 'h' 315_alnum['\U0001d4f2'] = 'i' 316_alnum['\U0001d4f3'] = 'j' 317_alnum['\U0001d4f4'] = 'k' 318_alnum['\U0001d4f5'] = 'l' 319_alnum['\U0001d4f6'] = 'm' 320_alnum['\U0001d4f7'] = 'n' 321_alnum['\U0001d4f8'] = 'o' 322_alnum['\U0001d4f9'] = 'p' 323_alnum['\U0001d4fa'] = 'q' 324_alnum['\U0001d4fb'] = 'r' 325_alnum['\U0001d4fc'] = 's' 326_alnum['\U0001d4fd'] = 't' 327_alnum['\U0001d4fe'] = 'u' 328_alnum['\U0001d4ff'] = 'v' 329_alnum['\U0001d500'] = 'w' 330_alnum['\U0001d501'] = 'x' 331_alnum['\U0001d502'] = 'y' 332_alnum['\U0001d503'] = 'z' 333_alnum['\U0001d504'] = 'A' 334_alnum['\U0001d505'] = 'B' 335_alnum['\U0001d507'] = 'D' 336_alnum['\U0001d508'] = 'E' 337_alnum['\U0001d509'] = 'F' 338_alnum['\U0001d50a'] = 'G' 339_alnum['\U0001d50d'] = 'J' 340_alnum['\U0001d50e'] = 'K' 341_alnum['\U0001d50f'] = 'L' 342_alnum['\U0001d510'] = 'M' 343_alnum['\U0001d511'] = 'N' 344_alnum['\U0001d512'] = 'O' 345_alnum['\U0001d513'] = 'P' 346_alnum['\U0001d514'] = 'Q' 347_alnum['\U0001d516'] = 'S' 348_alnum['\U0001d517'] = 'T' 349_alnum['\U0001d518'] = 'U' 350_alnum['\U0001d519'] = 'V' 351_alnum['\U0001d51a'] = 'W' 352_alnum['\U0001d51b'] = 'X' 353_alnum['\U0001d51c'] = 'Y' 354_alnum['\U0001d51e'] = 'a' 355_alnum['\U0001d51f'] = 'b' 356_alnum['\U0001d520'] = 'c' 357_alnum['\U0001d521'] = 'd' 358_alnum['\U0001d522'] = 'e' 359_alnum['\U0001d523'] = 'f' 360_alnum['\U0001d524'] = 'g' 361_alnum['\U0001d525'] = 'h' 362_alnum['\U0001d526'] = 'i' 363_alnum['\U0001d527'] = 'j' 364_alnum['\U0001d528'] = 'k' 365_alnum['\U0001d529'] = 'l' 366_alnum['\U0001d52a'] = 'm' 367_alnum['\U0001d52b'] = 'n' 368_alnum['\U0001d52c'] = 'o' 369_alnum['\U0001d52d'] = 'p' 370_alnum['\U0001d52e'] = 'q' 371_alnum['\U0001d52f'] = 'r' 372_alnum['\U0001d530'] = 's' 373_alnum['\U0001d531'] = 't' 374_alnum['\U0001d532'] = 'u' 375_alnum['\U0001d533'] = 'v' 376_alnum['\U0001d534'] = 'w' 377_alnum['\U0001d535'] = 'x' 378_alnum['\U0001d536'] = 'y' 379_alnum['\U0001d537'] = 'z' 380_alnum['\U0001d538'] = 'A' 381_alnum['\U0001d539'] = 'B' 382_alnum['\U0001d53b'] = 'D' 383_alnum['\U0001d53c'] = 'E' 384_alnum['\U0001d53d'] = 'F' 385_alnum['\U0001d53e'] = 'G' 386_alnum['\U0001d540'] = 'I' 387_alnum['\U0001d541'] = 'J' 388_alnum['\U0001d542'] = 'K' 389_alnum['\U0001d543'] = 'L' 390_alnum['\U0001d544'] = 'M' 391_alnum['\U0001d546'] = 'O' 392_alnum['\U0001d54a'] = 'S' 393_alnum['\U0001d54b'] = 'T' 394_alnum['\U0001d54c'] = 'U' 395_alnum['\U0001d54d'] = 'V' 396_alnum['\U0001d54e'] = 'W' 397_alnum['\U0001d54f'] = 'X' 398_alnum['\U0001d550'] = 'Y' 399_alnum['\U0001d552'] = 'a' 400_alnum['\U0001d553'] = 'b' 401_alnum['\U0001d554'] = 'c' 402_alnum['\U0001d555'] = 'd' 403_alnum['\U0001d556'] = 'e' 404_alnum['\U0001d557'] = 'f' 405_alnum['\U0001d558'] = 'g' 406_alnum['\U0001d559'] = 'h' 407_alnum['\U0001d55a'] = 'i' 408_alnum['\U0001d55b'] = 'j' 409_alnum['\U0001d55c'] = 'k' 410_alnum['\U0001d55d'] = 'l' 411_alnum['\U0001d55e'] = 'm' 412_alnum['\U0001d55f'] = 'n' 413_alnum['\U0001d560'] = 'o' 414_alnum['\U0001d561'] = 'p' 415_alnum['\U0001d562'] = 'q' 416_alnum['\U0001d563'] = 'r' 417_alnum['\U0001d564'] = 's' 418_alnum['\U0001d565'] = 't' 419_alnum['\U0001d566'] = 'u' 420_alnum['\U0001d567'] = 'v' 421_alnum['\U0001d568'] = 'w' 422_alnum['\U0001d569'] = 'x' 423_alnum['\U0001d56a'] = 'y' 424_alnum['\U0001d56b'] = 'z' 425_alnum['\U0001d56c'] = 'A' 426_alnum['\U0001d56d'] = 'B' 427_alnum['\U0001d56e'] = 'C' 428_alnum['\U0001d56f'] = 'D' 429_alnum['\U0001d570'] = 'E' 430_alnum['\U0001d571'] = 'F' 431_alnum['\U0001d572'] = 'G' 432_alnum['\U0001d573'] = 'H' 433_alnum['\U0001d574'] = 'I' 434_alnum['\U0001d575'] = 'J' 435_alnum['\U0001d576'] = 'K' 436_alnum['\U0001d577'] = 'L' 437_alnum['\U0001d578'] = 'M' 438_alnum['\U0001d579'] = 'N' 439_alnum['\U0001d57a'] = 'O' 440_alnum['\U0001d57b'] = 'P' 441_alnum['\U0001d57c'] = 'Q' 442_alnum['\U0001d57d'] = 'R' 443_alnum['\U0001d57e'] = 'S' 444_alnum['\U0001d57f'] = 'T' 445_alnum['\U0001d580'] = 'U' 446_alnum['\U0001d581'] = 'V' 447_alnum['\U0001d582'] = 'W' 448_alnum['\U0001d583'] = 'X' 449_alnum['\U0001d584'] = 'Y' 450_alnum['\U0001d585'] = 'Z' 451_alnum['\U0001d586'] = 'a' 452_alnum['\U0001d587'] = 'b' 453_alnum['\U0001d588'] = 'c' 454_alnum['\U0001d589'] = 'd' 455_alnum['\U0001d58a'] = 'e' 456_alnum['\U0001d58b'] = 'f' 457_alnum['\U0001d58c'] = 'g' 458_alnum['\U0001d58d'] = 'h' 459_alnum['\U0001d58e'] = 'i' 460_alnum['\U0001d58f'] = 'j' 461_alnum['\U0001d590'] = 'k' 462_alnum['\U0001d591'] = 'l' 463_alnum['\U0001d592'] = 'm' 464_alnum['\U0001d593'] = 'n' 465_alnum['\U0001d594'] = 'o' 466_alnum['\U0001d595'] = 'p' 467_alnum['\U0001d596'] = 'q' 468_alnum['\U0001d597'] = 'r' 469_alnum['\U0001d598'] = 's' 470_alnum['\U0001d599'] = 't' 471_alnum['\U0001d59a'] = 'u' 472_alnum['\U0001d59b'] = 'v' 473_alnum['\U0001d59c'] = 'w' 474_alnum['\U0001d59d'] = 'x' 475_alnum['\U0001d59e'] = 'y' 476_alnum['\U0001d59f'] = 'z' 477_alnum['\U0001d5a0'] = 'A' 478_alnum['\U0001d5a1'] = 'B' 479_alnum['\U0001d5a2'] = 'C' 480_alnum['\U0001d5a3'] = 'D' 481_alnum['\U0001d5a4'] = 'E' 482_alnum['\U0001d5a5'] = 'F' 483_alnum['\U0001d5a6'] = 'G' 484_alnum['\U0001d5a7'] = 'H' 485_alnum['\U0001d5a8'] = 'I' 486_alnum['\U0001d5a9'] = 'J' 487_alnum['\U0001d5aa'] = 'K' 488_alnum['\U0001d5ab'] = 'L' 489_alnum['\U0001d5ac'] = 'M' 490_alnum['\U0001d5ad'] = 'N' 491_alnum['\U0001d5ae'] = 'O' 492_alnum['\U0001d5af'] = 'P' 493_alnum['\U0001d5b0'] = 'Q' 494_alnum['\U0001d5b1'] = 'R' 495_alnum['\U0001d5b2'] = 'S' 496_alnum['\U0001d5b3'] = 'T' 497_alnum['\U0001d5b4'] = 'U' 498_alnum['\U0001d5b5'] = 'V' 499_alnum['\U0001d5b6'] = 'W' 500_alnum['\U0001d5b7'] = 'X' 501_alnum['\U0001d5b8'] = 'Y' 502_alnum['\U0001d5b9'] = 'Z' 503_alnum['\U0001d5ba'] = 'a' 504_alnum['\U0001d5bb'] = 'b' 505_alnum['\U0001d5bc'] = 'c' 506_alnum['\U0001d5bd'] = 'd' 507_alnum['\U0001d5be'] = 'e' 508_alnum['\U0001d5bf'] = 'f' 509_alnum['\U0001d5c0'] = 'g' 510_alnum['\U0001d5c1'] = 'h' 511_alnum['\U0001d5c2'] = 'i' 512_alnum['\U0001d5c3'] = 'j' 513_alnum['\U0001d5c4'] = 'k' 514_alnum['\U0001d5c5'] = 'l' 515_alnum['\U0001d5c6'] = 'm' 516_alnum['\U0001d5c7'] = 'n' 517_alnum['\U0001d5c8'] = 'o' 518_alnum['\U0001d5c9'] = 'p' 519_alnum['\U0001d5ca'] = 'q' 520_alnum['\U0001d5cb'] = 'r' 521_alnum['\U0001d5cc'] = 's' 522_alnum['\U0001d5cd'] = 't' 523_alnum['\U0001d5ce'] = 'u' 524_alnum['\U0001d5cf'] = 'v' 525_alnum['\U0001d5d0'] = 'w' 526_alnum['\U0001d5d1'] = 'x' 527_alnum['\U0001d5d2'] = 'y' 528_alnum['\U0001d5d3'] = 'z' 529_alnum['\U0001d5d4'] = 'A' 530_alnum['\U0001d5d5'] = 'B' 531_alnum['\U0001d5d6'] = 'C' 532_alnum['\U0001d5d7'] = 'D' 533_alnum['\U0001d5d8'] = 'E' 534_alnum['\U0001d5d9'] = 'F' 535_alnum['\U0001d5da'] = 'G' 536_alnum['\U0001d5db'] = 'H' 537_alnum['\U0001d5dc'] = 'I' 538_alnum['\U0001d5dd'] = 'J' 539_alnum['\U0001d5de'] = 'K' 540_alnum['\U0001d5df'] = 'L' 541_alnum['\U0001d5e0'] = 'M' 542_alnum['\U0001d5e1'] = 'N' 543_alnum['\U0001d5e2'] = 'O' 544_alnum['\U0001d5e3'] = 'P' 545_alnum['\U0001d5e4'] = 'Q' 546_alnum['\U0001d5e5'] = 'R' 547_alnum['\U0001d5e6'] = 'S' 548_alnum['\U0001d5e7'] = 'T' 549_alnum['\U0001d5e8'] = 'U' 550_alnum['\U0001d5e9'] = 'V' 551_alnum['\U0001d5ea'] = 'W' 552_alnum['\U0001d5eb'] = 'X' 553_alnum['\U0001d5ec'] = 'Y' 554_alnum['\U0001d5ed'] = 'Z' 555_alnum['\U0001d5ee'] = 'a' 556_alnum['\U0001d5ef'] = 'b' 557_alnum['\U0001d5f0'] = 'c' 558_alnum['\U0001d5f1'] = 'd' 559_alnum['\U0001d5f2'] = 'e' 560_alnum['\U0001d5f3'] = 'f' 561_alnum['\U0001d5f4'] = 'g' 562_alnum['\U0001d5f5'] = 'h' 563_alnum['\U0001d5f6'] = 'i' 564_alnum['\U0001d5f7'] = 'j' 565_alnum['\U0001d5f8'] = 'k' 566_alnum['\U0001d5f9'] = 'l' 567_alnum['\U0001d5fa'] = 'm' 568_alnum['\U0001d5fb'] = 'n' 569_alnum['\U0001d5fc'] = 'o' 570_alnum['\U0001d5fd'] = 'p' 571_alnum['\U0001d5fe'] = 'q' 572_alnum['\U0001d5ff'] = 'r' 573_alnum['\U0001d600'] = 's' 574_alnum['\U0001d601'] = 't' 575_alnum['\U0001d602'] = 'u' 576_alnum['\U0001d603'] = 'v' 577_alnum['\U0001d604'] = 'w' 578_alnum['\U0001d605'] = 'x' 579_alnum['\U0001d606'] = 'y' 580_alnum['\U0001d607'] = 'z' 581_alnum['\U0001d608'] = 'A' 582_alnum['\U0001d609'] = 'B' 583_alnum['\U0001d60a'] = 'C' 584_alnum['\U0001d60b'] = 'D' 585_alnum['\U0001d60c'] = 'E' 586_alnum['\U0001d60d'] = 'F' 587_alnum['\U0001d60e'] = 'G' 588_alnum['\U0001d60f'] = 'H' 589_alnum['\U0001d610'] = 'I' 590_alnum['\U0001d611'] = 'J' 591_alnum['\U0001d612'] = 'K' 592_alnum['\U0001d613'] = 'L' 593_alnum['\U0001d614'] = 'M' 594_alnum['\U0001d615'] = 'N' 595_alnum['\U0001d616'] = 'O' 596_alnum['\U0001d617'] = 'P' 597_alnum['\U0001d618'] = 'Q' 598_alnum['\U0001d619'] = 'R' 599_alnum['\U0001d61a'] = 'S' 600_alnum['\U0001d61b'] = 'T' 601_alnum['\U0001d61c'] = 'U' 602_alnum['\U0001d61d'] = 'V' 603_alnum['\U0001d61e'] = 'W' 604_alnum['\U0001d61f'] = 'X' 605_alnum['\U0001d620'] = 'Y' 606_alnum['\U0001d621'] = 'Z' 607_alnum['\U0001d622'] = 'a' 608_alnum['\U0001d623'] = 'b' 609_alnum['\U0001d624'] = 'c' 610_alnum['\U0001d625'] = 'd' 611_alnum['\U0001d626'] = 'e' 612_alnum['\U0001d627'] = 'f' 613_alnum['\U0001d628'] = 'g' 614_alnum['\U0001d629'] = 'h' 615_alnum['\U0001d62a'] = 'i' 616_alnum['\U0001d62b'] = 'j' 617_alnum['\U0001d62c'] = 'k' 618_alnum['\U0001d62d'] = 'l' 619_alnum['\U0001d62e'] = 'm' 620_alnum['\U0001d62f'] = 'n' 621_alnum['\U0001d630'] = 'o' 622_alnum['\U0001d631'] = 'p' 623_alnum['\U0001d632'] = 'q' 624_alnum['\U0001d633'] = 'r' 625_alnum['\U0001d634'] = 's' 626_alnum['\U0001d635'] = 't' 627_alnum['\U0001d636'] = 'u' 628_alnum['\U0001d637'] = 'v' 629_alnum['\U0001d638'] = 'w' 630_alnum['\U0001d639'] = 'x' 631_alnum['\U0001d63a'] = 'y' 632_alnum['\U0001d63b'] = 'z' 633_alnum['\U0001d63c'] = 'A' 634_alnum['\U0001d63d'] = 'B' 635_alnum['\U0001d63e'] = 'C' 636_alnum['\U0001d63f'] = 'D' 637_alnum['\U0001d640'] = 'E' 638_alnum['\U0001d641'] = 'F' 639_alnum['\U0001d642'] = 'G' 640_alnum['\U0001d643'] = 'H' 641_alnum['\U0001d644'] = 'I' 642_alnum['\U0001d645'] = 'J' 643_alnum['\U0001d646'] = 'K' 644_alnum['\U0001d647'] = 'L' 645_alnum['\U0001d648'] = 'M' 646_alnum['\U0001d649'] = 'N' 647_alnum['\U0001d64a'] = 'O' 648_alnum['\U0001d64b'] = 'P' 649_alnum['\U0001d64c'] = 'Q' 650_alnum['\U0001d64d'] = 'R' 651_alnum['\U0001d64e'] = 'S' 652_alnum['\U0001d64f'] = 'T' 653_alnum['\U0001d650'] = 'U' 654_alnum['\U0001d651'] = 'V' 655_alnum['\U0001d652'] = 'W' 656_alnum['\U0001d653'] = 'X' 657_alnum['\U0001d654'] = 'Y' 658_alnum['\U0001d655'] = 'Z' 659_alnum['\U0001d656'] = 'a' 660_alnum['\U0001d657'] = 'b' 661_alnum['\U0001d658'] = 'c' 662_alnum['\U0001d659'] = 'd' 663_alnum['\U0001d65a'] = 'e' 664_alnum['\U0001d65b'] = 'f' 665_alnum['\U0001d65c'] = 'g' 666_alnum['\U0001d65d'] = 'h' 667_alnum['\U0001d65e'] = 'i' 668_alnum['\U0001d65f'] = 'j' 669_alnum['\U0001d660'] = 'k' 670_alnum['\U0001d661'] = 'l' 671_alnum['\U0001d662'] = 'm' 672_alnum['\U0001d663'] = 'n' 673_alnum['\U0001d664'] = 'o' 674_alnum['\U0001d665'] = 'p' 675_alnum['\U0001d666'] = 'q' 676_alnum['\U0001d667'] = 'r' 677_alnum['\U0001d668'] = 's' 678_alnum['\U0001d669'] = 't' 679_alnum['\U0001d66a'] = 'u' 680_alnum['\U0001d66b'] = 'v' 681_alnum['\U0001d66c'] = 'w' 682_alnum['\U0001d66d'] = 'x' 683_alnum['\U0001d66e'] = 'y' 684_alnum['\U0001d66f'] = 'z' 685_alnum['\U0001d670'] = 'A' 686_alnum['\U0001d671'] = 'B' 687_alnum['\U0001d672'] = 'C' 688_alnum['\U0001d673'] = 'D' 689_alnum['\U0001d674'] = 'E' 690_alnum['\U0001d675'] = 'F' 691_alnum['\U0001d676'] = 'G' 692_alnum['\U0001d677'] = 'H' 693_alnum['\U0001d678'] = 'I' 694_alnum['\U0001d679'] = 'J' 695_alnum['\U0001d67a'] = 'K' 696_alnum['\U0001d67b'] = 'L' 697_alnum['\U0001d67c'] = 'M' 698_alnum['\U0001d67d'] = 'N' 699_alnum['\U0001d67e'] = 'O' 700_alnum['\U0001d67f'] = 'P' 701_alnum['\U0001d680'] = 'Q' 702_alnum['\U0001d681'] = 'R' 703_alnum['\U0001d682'] = 'S' 704_alnum['\U0001d683'] = 'T' 705_alnum['\U0001d684'] = 'U' 706_alnum['\U0001d685'] = 'V' 707_alnum['\U0001d686'] = 'W' 708_alnum['\U0001d687'] = 'X' 709_alnum['\U0001d688'] = 'Y' 710_alnum['\U0001d689'] = 'Z' 711_alnum['\U0001d68a'] = 'a' 712_alnum['\U0001d68b'] = 'b' 713_alnum['\U0001d68c'] = 'c' 714_alnum['\U0001d68d'] = 'd' 715_alnum['\U0001d68e'] = 'e' 716_alnum['\U0001d68f'] = 'f' 717_alnum['\U0001d690'] = 'g' 718_alnum['\U0001d691'] = 'h' 719_alnum['\U0001d692'] = 'i' 720_alnum['\U0001d693'] = 'j' 721_alnum['\U0001d694'] = 'k' 722_alnum['\U0001d695'] = 'l' 723_alnum['\U0001d696'] = 'm' 724_alnum['\U0001d697'] = 'n' 725_alnum['\U0001d698'] = 'o' 726_alnum['\U0001d699'] = 'p' 727_alnum['\U0001d69a'] = 'q' 728_alnum['\U0001d69b'] = 'r' 729_alnum['\U0001d69c'] = 's' 730_alnum['\U0001d69d'] = 't' 731_alnum['\U0001d69e'] = 'u' 732_alnum['\U0001d69f'] = 'v' 733_alnum['\U0001d6a0'] = 'w' 734_alnum['\U0001d6a1'] = 'x' 735_alnum['\U0001d6a2'] = 'y' 736_alnum['\U0001d6a3'] = 'z' 737_alnum['\U0001d6a4'] = 'i' 738_alnum['\U0001d6a5'] = 'j' 739_alnum['\U0001d6a8'] = 'Α' 740_alnum['\U0001d6a9'] = 'Β' 741_alnum['\U0001d6aa'] = 'Γ' 742_alnum['\U0001d6ab'] = 'Δ' 743_alnum['\U0001d6ac'] = 'Ε' 744_alnum['\U0001d6ad'] = 'Ζ' 745_alnum['\U0001d6ae'] = 'Η' 746_alnum['\U0001d6af'] = 'ϴ' 747_alnum['\U0001d6b0'] = 'Ι' 748_alnum['\U0001d6b1'] = 'Κ' 749_alnum['\U0001d6b2'] = 'Λ' 750_alnum['\U0001d6b3'] = 'Μ' 751_alnum['\U0001d6b4'] = 'Ν' 752_alnum['\U0001d6b5'] = 'Ξ' 753_alnum['\U0001d6b6'] = 'Ο' 754_alnum['\U0001d6b7'] = 'Π' 755_alnum['\U0001d6b8'] = 'Ρ' 756_alnum['\U0001d6b9'] = 'ϴ' 757_alnum['\U0001d6ba'] = 'Σ' 758_alnum['\U0001d6bb'] = 'Τ' 759_alnum['\U0001d6bc'] = 'Υ' 760_alnum['\U0001d6bd'] = 'Φ' 761_alnum['\U0001d6be'] = 'Χ' 762_alnum['\U0001d6bf'] = 'Ψ' 763_alnum['\U0001d6c0'] = 'Ω' 764_alnum['\U0001d6c1'] = '∇' 765_alnum['\U0001d6c2'] = 'α' 766_alnum['\U0001d6c3'] = 'β' 767_alnum['\U0001d6c4'] = 'γ' 768_alnum['\U0001d6c5'] = 'δ' 769_alnum['\U0001d6c6'] = 'ε' 770_alnum['\U0001d6c7'] = 'ζ' 771_alnum['\U0001d6c8'] = 'η' 772_alnum['\U0001d6c9'] = 'θ' 773_alnum['\U0001d6ca'] = 'ι' 774_alnum['\U0001d6cb'] = 'κ' 775_alnum['\U0001d6cc'] = 'λ' 776_alnum['\U0001d6cd'] = 'μ' 777_alnum['\U0001d6ce'] = 'ν' 778_alnum['\U0001d6cf'] = 'ξ' 779_alnum['\U0001d6d0'] = 'ο' 780_alnum['\U0001d6d1'] = 'π' 781_alnum['\U0001d6d2'] = 'ρ' 782_alnum['\U0001d6d3'] = 'ς' 783_alnum['\U0001d6d4'] = 'σ' 784_alnum['\U0001d6d5'] = 'τ' 785_alnum['\U0001d6d6'] = 'υ' 786_alnum['\U0001d6d7'] = 'φ' 787_alnum['\U0001d6d8'] = 'χ' 788_alnum['\U0001d6d9'] = 'ψ' 789_alnum['\U0001d6da'] = 'ω' 790_alnum['\U0001d6db'] = '∂' 791_alnum['\U0001d6dc'] = 'ϵ' 792_alnum['\U0001d6dd'] = 'ϑ' 793_alnum['\U0001d6de'] = 'ϰ' 794_alnum['\U0001d6df'] = 'ϕ' 795_alnum['\U0001d6e0'] = 'ϱ' 796_alnum['\U0001d6e1'] = 'ϖ' 797_alnum['\U0001d6e2'] = 'Α' 798_alnum['\U0001d6e3'] = 'Β' 799_alnum['\U0001d6e4'] = 'Γ' 800_alnum['\U0001d6e5'] = 'Δ' 801_alnum['\U0001d6e6'] = 'Ε' 802_alnum['\U0001d6e7'] = 'Ζ' 803_alnum['\U0001d6e8'] = 'Η' 804_alnum['\U0001d6e9'] = 'ϴ' 805_alnum['\U0001d6ea'] = 'Ι' 806_alnum['\U0001d6eb'] = 'Κ' 807_alnum['\U0001d6ec'] = 'Λ' 808_alnum['\U0001d6ed'] = 'Μ' 809_alnum['\U0001d6ee'] = 'Ν' 810_alnum['\U0001d6ef'] = 'Ξ' 811_alnum['\U0001d6f0'] = 'Ο' 812_alnum['\U0001d6f1'] = 'Π' 813_alnum['\U0001d6f2'] = 'Ρ' 814_alnum['\U0001d6f3'] = 'ϴ' 815_alnum['\U0001d6f4'] = 'Σ' 816_alnum['\U0001d6f5'] = 'Τ' 817_alnum['\U0001d6f6'] = 'Υ' 818_alnum['\U0001d6f7'] = 'Φ' 819_alnum['\U0001d6f8'] = 'Χ' 820_alnum['\U0001d6f9'] = 'Ψ' 821_alnum['\U0001d6fa'] = 'Ω' 822_alnum['\U0001d6fb'] = '∇' 823_alnum['\U0001d6fc'] = 'α' 824_alnum['\U0001d6fd'] = 'β' 825_alnum['\U0001d6fe'] = 'γ' 826_alnum['\U0001d6ff'] = 'δ' 827_alnum['\U0001d700'] = 'ε' 828_alnum['\U0001d701'] = 'ζ' 829_alnum['\U0001d702'] = 'η' 830_alnum['\U0001d703'] = 'θ' 831_alnum['\U0001d704'] = 'ι' 832_alnum['\U0001d705'] = 'κ' 833_alnum['\U0001d706'] = 'λ' 834_alnum['\U0001d707'] = 'μ' 835_alnum['\U0001d708'] = 'ν' 836_alnum['\U0001d709'] = 'ξ' 837_alnum['\U0001d70a'] = 'ο' 838_alnum['\U0001d70b'] = 'π' 839_alnum['\U0001d70c'] = 'ρ' 840_alnum['\U0001d70d'] = 'ς' 841_alnum['\U0001d70e'] = 'σ' 842_alnum['\U0001d70f'] = 'τ' 843_alnum['\U0001d710'] = 'υ' 844_alnum['\U0001d711'] = 'φ' 845_alnum['\U0001d712'] = 'χ' 846_alnum['\U0001d713'] = 'ψ' 847_alnum['\U0001d714'] = 'ω' 848_alnum['\U0001d715'] = '∂' 849_alnum['\U0001d716'] = 'ϵ' 850_alnum['\U0001d717'] = 'ϑ' 851_alnum['\U0001d718'] = 'ϰ' 852_alnum['\U0001d719'] = 'ϕ' 853_alnum['\U0001d71a'] = 'ϱ' 854_alnum['\U0001d71b'] = 'ϖ' 855_alnum['\U0001d71c'] = 'Α' 856_alnum['\U0001d71d'] = 'Β' 857_alnum['\U0001d71e'] = 'Γ' 858_alnum['\U0001d71f'] = 'Δ' 859_alnum['\U0001d720'] = 'Ε' 860_alnum['\U0001d721'] = 'Ζ' 861_alnum['\U0001d722'] = 'Η' 862_alnum['\U0001d723'] = 'ϴ' 863_alnum['\U0001d724'] = 'Ι' 864_alnum['\U0001d725'] = 'Κ' 865_alnum['\U0001d726'] = 'Λ' 866_alnum['\U0001d727'] = 'Μ' 867_alnum['\U0001d728'] = 'Ν' 868_alnum['\U0001d729'] = 'Ξ' 869_alnum['\U0001d72a'] = 'Ο' 870_alnum['\U0001d72b'] = 'Π' 871_alnum['\U0001d72c'] = 'Ρ' 872_alnum['\U0001d72d'] = 'ϴ' 873_alnum['\U0001d72e'] = 'Σ' 874_alnum['\U0001d72f'] = 'Τ' 875_alnum['\U0001d730'] = 'Υ' 876_alnum['\U0001d731'] = 'Φ' 877_alnum['\U0001d732'] = 'Χ' 878_alnum['\U0001d733'] = 'Ψ' 879_alnum['\U0001d734'] = 'Ω' 880_alnum['\U0001d735'] = '∇' 881_alnum['\U0001d736'] = 'α' 882_alnum['\U0001d737'] = 'β' 883_alnum['\U0001d738'] = 'γ' 884_alnum['\U0001d739'] = 'δ' 885_alnum['\U0001d73a'] = 'ε' 886_alnum['\U0001d73b'] = 'ζ' 887_alnum['\U0001d73c'] = 'η' 888_alnum['\U0001d73d'] = 'θ' 889_alnum['\U0001d73e'] = 'ι' 890_alnum['\U0001d73f'] = 'κ' 891_alnum['\U0001d740'] = 'λ' 892_alnum['\U0001d741'] = 'μ' 893_alnum['\U0001d742'] = 'ν' 894_alnum['\U0001d743'] = 'ξ' 895_alnum['\U0001d744'] = 'ο' 896_alnum['\U0001d745'] = 'π' 897_alnum['\U0001d746'] = 'ρ' 898_alnum['\U0001d747'] = 'ς' 899_alnum['\U0001d748'] = 'σ' 900_alnum['\U0001d749'] = 'τ' 901_alnum['\U0001d74a'] = 'υ' 902_alnum['\U0001d74b'] = 'φ' 903_alnum['\U0001d74c'] = 'χ' 904_alnum['\U0001d74d'] = 'ψ' 905_alnum['\U0001d74e'] = 'ω' 906_alnum['\U0001d74f'] = '∂' 907_alnum['\U0001d750'] = 'ϵ' 908_alnum['\U0001d751'] = 'ϑ' 909_alnum['\U0001d752'] = 'ϰ' 910_alnum['\U0001d753'] = 'ϕ' 911_alnum['\U0001d754'] = 'ϱ' 912_alnum['\U0001d755'] = 'ϖ' 913_alnum['\U0001d756'] = 'Α' 914_alnum['\U0001d757'] = 'Β' 915_alnum['\U0001d758'] = 'Γ' 916_alnum['\U0001d759'] = 'Δ' 917_alnum['\U0001d75a'] = 'Ε' 918_alnum['\U0001d75b'] = 'Ζ' 919_alnum['\U0001d75c'] = 'Η' 920_alnum['\U0001d75d'] = 'ϴ' 921_alnum['\U0001d75e'] = 'Ι' 922_alnum['\U0001d75f'] = 'Κ' 923_alnum['\U0001d760'] = 'Λ' 924_alnum['\U0001d761'] = 'Μ' 925_alnum['\U0001d762'] = 'Ν' 926_alnum['\U0001d763'] = 'Ξ' 927_alnum['\U0001d764'] = 'Ο' 928_alnum['\U0001d765'] = 'Π' 929_alnum['\U0001d766'] = 'Ρ' 930_alnum['\U0001d767'] = 'ϴ' 931_alnum['\U0001d768'] = 'Σ' 932_alnum['\U0001d769'] = 'Τ' 933_alnum['\U0001d76a'] = 'Υ' 934_alnum['\U0001d76b'] = 'Φ' 935_alnum['\U0001d76c'] = 'Χ' 936_alnum['\U0001d76d'] = 'Ψ' 937_alnum['\U0001d76e'] = 'Ω' 938_alnum['\U0001d76f'] = '∇' 939_alnum['\U0001d770'] = 'α' 940_alnum['\U0001d771'] = 'β' 941_alnum['\U0001d772'] = 'γ' 942_alnum['\U0001d773'] = 'δ' 943_alnum['\U0001d774'] = 'ε' 944_alnum['\U0001d775'] = 'ζ' 945_alnum['\U0001d776'] = 'η' 946_alnum['\U0001d777'] = 'θ' 947_alnum['\U0001d778'] = 'ι' 948_alnum['\U0001d779'] = 'κ' 949_alnum['\U0001d77a'] = 'λ' 950_alnum['\U0001d77b'] = 'μ' 951_alnum['\U0001d77c'] = 'ν' 952_alnum['\U0001d77d'] = 'ξ' 953_alnum['\U0001d77e'] = 'ο' 954_alnum['\U0001d77f'] = 'π' 955_alnum['\U0001d780'] = 'ρ' 956_alnum['\U0001d781'] = 'ς' 957_alnum['\U0001d782'] = 'σ' 958_alnum['\U0001d783'] = 'τ' 959_alnum['\U0001d784'] = 'υ' 960_alnum['\U0001d785'] = 'φ' 961_alnum['\U0001d786'] = 'χ' 962_alnum['\U0001d787'] = 'ψ' 963_alnum['\U0001d788'] = 'ω' 964_alnum['\U0001d789'] = '∂' 965_alnum['\U0001d78a'] = 'ϵ' 966_alnum['\U0001d78b'] = 'ϑ' 967_alnum['\U0001d78c'] = 'ϰ' 968_alnum['\U0001d78d'] = 'ϕ' 969_alnum['\U0001d78e'] = 'ϱ' 970_alnum['\U0001d78f'] = 'ϖ' 971_alnum['\U0001d790'] = 'Α' 972_alnum['\U0001d791'] = 'Β' 973_alnum['\U0001d792'] = 'Γ' 974_alnum['\U0001d793'] = 'Δ' 975_alnum['\U0001d794'] = 'Ε' 976_alnum['\U0001d795'] = 'Ζ' 977_alnum['\U0001d796'] = 'Η' 978_alnum['\U0001d797'] = 'ϴ' 979_alnum['\U0001d798'] = 'Ι' 980_alnum['\U0001d799'] = 'Κ' 981_alnum['\U0001d79a'] = 'Λ' 982_alnum['\U0001d79b'] = 'Μ' 983_alnum['\U0001d79c'] = 'Ν' 984_alnum['\U0001d79d'] = 'Ξ' 985_alnum['\U0001d79e'] = 'Ο' 986_alnum['\U0001d79f'] = 'Π' 987_alnum['\U0001d7a0'] = 'Ρ' 988_alnum['\U0001d7a1'] = 'ϴ' 989_alnum['\U0001d7a2'] = 'Σ' 990_alnum['\U0001d7a3'] = 'Τ' 991_alnum['\U0001d7a4'] = 'Υ' 992_alnum['\U0001d7a5'] = 'Φ' 993_alnum['\U0001d7a6'] = 'Χ' 994_alnum['\U0001d7a7'] = 'Ψ' 995_alnum['\U0001d7a8'] = 'Ω' 996_alnum['\U0001d7a9'] = '∇' 997_alnum['\U0001d7aa'] = 'α' 998_alnum['\U0001d7ab'] = 'β' 999_alnum['\U0001d7ac'] = 'γ' 1000_alnum['\U0001d7ad'] = 'δ' 1001_alnum['\U0001d7ae'] = 'ε' 1002_alnum['\U0001d7af'] = 'ζ' 1003_alnum['\U0001d7b0'] = 'η' 1004_alnum['\U0001d7b1'] = 'θ' 1005_alnum['\U0001d7b2'] = 'ι' 1006_alnum['\U0001d7b3'] = 'κ' 1007_alnum['\U0001d7b4'] = 'λ' 1008_alnum['\U0001d7b5'] = 'μ' 1009_alnum['\U0001d7b6'] = 'ν' 1010_alnum['\U0001d7b7'] = 'ξ' 1011_alnum['\U0001d7b8'] = 'ο' 1012_alnum['\U0001d7b9'] = 'π' 1013_alnum['\U0001d7ba'] = 'ρ' 1014_alnum['\U0001d7bb'] = 'ς' 1015_alnum['\U0001d7bc'] = 'σ' 1016_alnum['\U0001d7bd'] = 'τ' 1017_alnum['\U0001d7be'] = 'υ' 1018_alnum['\U0001d7bf'] = 'φ' 1019_alnum['\U0001d7c0'] = 'χ' 1020_alnum['\U0001d7c1'] = 'ψ' 1021_alnum['\U0001d7c2'] = 'ω' 1022_alnum['\U0001d7c3'] = '∂' 1023_alnum['\U0001d7c4'] = 'ϵ' 1024_alnum['\U0001d7c5'] = 'ϑ' 1025_alnum['\U0001d7c6'] = 'ϰ' 1026_alnum['\U0001d7c7'] = 'ϕ' 1027_alnum['\U0001d7c8'] = 'ϱ' 1028_alnum['\U0001d7c9'] = 'ϖ' 1029_alnum['\U0001d7ca'] = 'Ϝ' 1030_alnum['\U0001d7cb'] = 'ϝ' 1031_alnum['\U0001d7ce'] = '0' 1032_alnum['\U0001d7cf'] = '1' 1033_alnum['\U0001d7d0'] = '2' 1034_alnum['\U0001d7d1'] = '3' 1035_alnum['\U0001d7d2'] = '4' 1036_alnum['\U0001d7d3'] = '5' 1037_alnum['\U0001d7d4'] = '6' 1038_alnum['\U0001d7d5'] = '7' 1039_alnum['\U0001d7d6'] = '8' 1040_alnum['\U0001d7d7'] = '9' 1041_alnum['\U0001d7d8'] = '0' 1042_alnum['\U0001d7d9'] = '1' 1043_alnum['\U0001d7da'] = '2' 1044_alnum['\U0001d7db'] = '3' 1045_alnum['\U0001d7dc'] = '4' 1046_alnum['\U0001d7dd'] = '5' 1047_alnum['\U0001d7de'] = '6' 1048_alnum['\U0001d7df'] = '7' 1049_alnum['\U0001d7e0'] = '8' 1050_alnum['\U0001d7e1'] = '9' 1051_alnum['\U0001d7e2'] = '0' 1052_alnum['\U0001d7e3'] = '1' 1053_alnum['\U0001d7e4'] = '2' 1054_alnum['\U0001d7e5'] = '3' 1055_alnum['\U0001d7e6'] = '4' 1056_alnum['\U0001d7e7'] = '5' 1057_alnum['\U0001d7e8'] = '6' 1058_alnum['\U0001d7e9'] = '7' 1059_alnum['\U0001d7ea'] = '8' 1060_alnum['\U0001d7eb'] = '9' 1061_alnum['\U0001d7ec'] = '0' 1062_alnum['\U0001d7ed'] = '1' 1063_alnum['\U0001d7ee'] = '2' 1064_alnum['\U0001d7ef'] = '3' 1065_alnum['\U0001d7f0'] = '4' 1066_alnum['\U0001d7f1'] = '5' 1067_alnum['\U0001d7f2'] = '6' 1068_alnum['\U0001d7f3'] = '7' 1069_alnum['\U0001d7f4'] = '8' 1070_alnum['\U0001d7f5'] = '9' 1071_alnum['\U0001d7f6'] = '0' 1072_alnum['\U0001d7f7'] = '1' 1073_alnum['\U0001d7f8'] = '2' 1074_alnum['\U0001d7f9'] = '3' 1075_alnum['\U0001d7fa'] = '4' 1076_alnum['\U0001d7fb'] = '5' 1077_alnum['\U0001d7fc'] = '6' 1078_alnum['\U0001d7fd'] = '7' 1079_alnum['\U0001d7fe'] = '8' 1080_alnum['\U0001d7ff'] = '9' 1081 1082_bold = range(0x1d400, 0x1d434) 1083_italic = range(0x1d434, 0x1d468) 1084_boldItalic = range(0x1d468, 0x1d49c) 1085_script = range(0x1d49c, 0x1d4d0) 1086_boldScript = range(0x1d4d0, 0x1d504) 1087_fraktur = range(0x1d504, 0x1d538) 1088_doubleStruck = range(0x1d538, 0x1d56c) 1089_boldFraktur = range(0x1d56c, 0x1d5a0) 1090_sansSerif = range(0x1d5a0, 0x1d5d4) 1091_sansSerifBold = range(0x1d5d4, 0x1d608) 1092_sansSerifItalic = range(0x1d608, 0x1d63c) 1093_sansSerifBoldItalic = range(0x1d63c, 0x1d670) 1094_monospace = range(0x1d670, 0x1d6a4) 1095_dotless = range(0x1d6a4, 0x1d6a8) 1096_boldGreek = range(0x1d6a8, 0x1d6e2) 1097_italicGreek = range(0x1d6e2, 0x1d71c) 1098_boldItalicGreek = range(0x1d71c, 0x1d756) 1099_sansSerifBoldGreek = range(0x1d756, 0x1d790) 1100_sansSerifBoldItalicGreek = range(0x1d790, 0x1d7ca) 1101_boldGreekDigamma = range(0x1d7ca, 0x1d7cc) 1102_boldDigits = range(0x1d7ce, 0x1d7d8) 1103_doubleStruckDigits = range(0x1d7d8, 0x1d7e2) 1104_sansSerifDigits = range(0x1d7e2, 0x1d7ec) 1105_sansSerifBoldDigits = range(0x1d7ec, 0x1d7f6) 1106_monospaceDigits = range(0x1d7f6, 0x1d800) 1107_otherDoubleStruck = [0x2102, 0x210d, 0x2115, 0x2119, 0x211a, 0x211d, 0x2124] 1108_otherFraktur = [0x212d, 0x210c, 0x2111, 0x211c, 0x2128] 1109_otherItalic = [0x210e] 1110_otherScript = [0x212c, 0x2130, 0x2131, 0x210b, 0x2110, 0x2112, 0x2133, 0x211b, 0x212f, 0x210a, 0x2134] 1111 1112# Translators: Unicode has a large set of characters consisting of a common 1113# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1114# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1115# can have specific meanings in mathematics and thus should be spoken along 1116# with the alphanumeric character. However, given the vast quantity of these 1117# characters, string substitution is being used with the substituted string 1118# being a single alphanumeric character. The full set of symbols can be found 1119# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1120BOLD = C_('math symbol', 'bold %s') 1121 1122# Translators: Unicode has a large set of characters consisting of a common 1123# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1124# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1125# can have specific meanings in mathematics and thus should be spoken along 1126# with the alphanumeric character. However, given the vast quantity of these 1127# characters, string substitution is being used with the substituted string 1128# being a single alphanumeric character. The full set of symbols can be found 1129# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1130ITALIC = C_('math symbol', 'italic %s') 1131 1132# Translators: Unicode has a large set of characters consisting of a common 1133# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1134# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1135# can have specific meanings in mathematics and thus should be spoken along 1136# with the alphanumeric character. However, given the vast quantity of these 1137# characters, string substitution is being used with the substituted string 1138# being a single alphanumeric character. The full set of symbols can be found 1139# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1140BOLD_ITALIC = C_('math symbol', 'bold italic %s') 1141 1142# Translators: Unicode has a large set of characters consisting of a common 1143# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1144# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1145# can have specific meanings in mathematics and thus should be spoken along 1146# with the alphanumeric character. However, given the vast quantity of these 1147# characters, string substitution is being used with the substituted string 1148# being a single alphanumeric character. The full set of symbols can be found 1149# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1150SCRIPT = C_('math symbol', 'script %s') 1151 1152# Translators: Unicode has a large set of characters consisting of a common 1153# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1154# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1155# can have specific meanings in mathematics and thus should be spoken along 1156# with the alphanumeric character. However, given the vast quantity of these 1157# characters, string substitution is being used with the substituted string 1158# being a single alphanumeric character. The full set of symbols can be found 1159# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1160BOLD_SCRIPT = C_('math symbol', 'bold script %s') 1161 1162# Translators: Unicode has a large set of characters consisting of a common 1163# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1164# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1165# can have specific meanings in mathematics and thus should be spoken along 1166# with the alphanumeric character. However, given the vast quantity of these 1167# characters, string substitution is being used with the substituted string 1168# being a single alphanumeric character. The full set of symbols can be found 1169# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1170FRAKTUR = C_('math symbol', 'fraktur %s') 1171 1172# Translators: Unicode has a large set of characters consisting of a common 1173# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1174# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1175# can have specific meanings in mathematics and thus should be spoken along 1176# with the alphanumeric character. However, given the vast quantity of these 1177# characters, string substitution is being used with the substituted string 1178# being a single alphanumeric character. The full set of symbols can be found 1179# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1180DOUBLE_STRUCK = C_('math symbol', 'double-struck %s') 1181 1182# Translators: Unicode has a large set of characters consisting of a common 1183# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1184# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1185# can have specific meanings in mathematics and thus should be spoken along 1186# with the alphanumeric character. However, given the vast quantity of these 1187# characters, string substitution is being used with the substituted string 1188# being a single alphanumeric character. The full set of symbols can be found 1189# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1190BOLD_FRAKTUR = C_('math symbol', 'bold fraktur %s') 1191 1192# Translators: Unicode has a large set of characters consisting of a common 1193# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1194# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1195# can have specific meanings in mathematics and thus should be spoken along 1196# with the alphanumeric character. However, given the vast quantity of these 1197# characters, string substitution is being used with the substituted string 1198# being a single alphanumeric character. The full set of symbols can be found 1199# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1200SANS_SERIF = C_('math symbol', 'sans-serif %s') 1201 1202# Translators: Unicode has a large set of characters consisting of a common 1203# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1204# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1205# can have specific meanings in mathematics and thus should be spoken along 1206# with the alphanumeric character. However, given the vast quantity of these 1207# characters, string substitution is being used with the substituted string 1208# being a single alphanumeric character. The full set of symbols can be found 1209# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1210SANS_SERIF_BOLD = C_('math symbol', 'sans-serif bold %s') 1211 1212# Translators: Unicode has a large set of characters consisting of a common 1213# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1214# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1215# can have specific meanings in mathematics and thus should be spoken along 1216# with the alphanumeric character. However, given the vast quantity of these 1217# characters, string substitution is being used with the substituted string 1218# being a single alphanumeric character. The full set of symbols can be found 1219# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1220SANS_SERIF_ITALIC = C_('math symbol', 'sans-serif italic %s') 1221 1222# Translators: Unicode has a large set of characters consisting of a common 1223# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1224# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1225# can have specific meanings in mathematics and thus should be spoken along 1226# with the alphanumeric character. However, given the vast quantity of these 1227# characters, string substitution is being used with the substituted string 1228# being a single alphanumeric character. The full set of symbols can be found 1229# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1230SANS_SERIF_BOLD_ITALIC = C_('math symbol', 'sans-serif bold italic %s') 1231 1232# Translators: Unicode has a large set of characters consisting of a common 1233# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1234# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1235# can have specific meanings in mathematics and thus should be spoken along 1236# with the alphanumeric character. However, given the vast quantity of these 1237# characters, string substitution is being used with the substituted string 1238# being a single alphanumeric character. The full set of symbols can be found 1239# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1240MONOSPACE = C_('math symbol', 'monospace %s') 1241 1242# Translators: Unicode has a large set of characters consisting of a common 1243# alphanumeric symbol and a style. For instance, character 1D400 is a bold A, 1244# 1D468 is a bold italic A, 1D4D0 is a bold script A,, etc., etc. These styles 1245# can have specific meanings in mathematics and thus should be spoken along 1246# with the alphanumeric character. However, given the vast quantity of these 1247# characters, string substitution is being used with the substituted string 1248# being a single alphanumeric character. The full set of symbols can be found 1249# at http://www.unicode.org/charts/PDF/U1D400.pdf. 1250DOTLESS = C_('math symbol', 'dotless %s') 1251 1252# Translators: this is the spoken representation for the character '←' (U+2190) 1253_arrows['\u2190'] = C_('math symbol', 'left arrow') 1254 1255# Translators: this is the spoken representation for the character '↑' (U+2191) 1256_arrows['\u2191'] = C_('math symbol', 'up arrow') 1257 1258# Translators: this is the spoken representation for the character '→' (U+2192) 1259_arrows['\u2192'] = C_('math symbol', 'right arrow') 1260 1261# Translators: this is the spoken representation for the character '↓' (U+2193) 1262_arrows['\u2193'] = C_('math symbol', 'down arrow') 1263 1264# Translators: this is the spoken representation for the character '↔' (U+2194) 1265_arrows['\u2194'] = C_('math symbol', 'left right arrow') 1266 1267# Translators: this is the spoken representation for the character '↕' (U+2195) 1268_arrows['\u2195'] = C_('math symbol', 'up down arrow') 1269 1270# Translators: this is the spoken representation for the character '↖' (U+2196) 1271_arrows['\u2196'] = C_('math symbol', 'north west arrow') 1272 1273# Translators: this is the spoken representation for the character '↗' (U+2197) 1274_arrows['\u2197'] = C_('math symbol', 'north east arrow') 1275 1276# Translators: this is the spoken representation for the character '↘' (U+2198) 1277_arrows['\u2198'] = C_('math symbol', 'south east arrow') 1278 1279# Translators: this is the spoken representation for the character '↤' (U+21a4) 1280_arrows['\u21a4'] = C_('math symbol', 'left arrow from bar') 1281 1282# Translators: this is the spoken representation for the character '↥' (U+21a5) 1283_arrows['\u21a5'] = C_('math symbol', 'up arrow from bar') 1284 1285# Translators: this is the spoken representation for the character '↦' (U+21a6) 1286_arrows['\u21a6'] = C_('math symbol', 'right arrow from bar') 1287 1288# Translators: this is the spoken representation for the character '↧' (U+21a7) 1289_arrows['\u21a7'] = C_('math symbol', 'down arrow from bar') 1290 1291# Translators: this is the spoken representation for the character '⇐' (U+21d0) 1292_arrows['\u21d0'] = C_('math symbol', 'left double arrow') 1293 1294# Translators: this is the spoken representation for the character '⇑' (U+21d1) 1295_arrows['\u21d1'] = C_('math symbol', 'up double arrow') 1296 1297# Translators: this is the spoken representation for the character '⇒' (U+21d2) 1298_arrows['\u21d2'] = C_('math symbol', 'right double arrow') 1299 1300# Translators: this is the spoken representation for the character '⇓' (U+21d3) 1301_arrows['\u21d3'] = C_('math symbol', 'down double arrow') 1302 1303# Translators: this is the spoken representation for the character '⇔' (U+21d4) 1304_arrows['\u21d4'] = C_('math symbol', 'left right double arrow') 1305 1306# Translators: this is the spoken representation for the character '⇕' (U+21d5) 1307_arrows['\u21d5'] = C_('math symbol', 'up down double arrow') 1308 1309# Translators: this is the spoken representation for the character '⇖' (U+21d6) 1310_arrows['\u21d6'] = C_('math symbol', 'north west double arrow') 1311 1312# Translators: this is the spoken representation for the character '⇗' (U+21d7) 1313_arrows['\u21d7'] = C_('math symbol', 'north east double arrow') 1314 1315# Translators: this is the spoken representation for the character '⇘' (U+21d8) 1316_arrows['\u21d8'] = C_('math symbol', 'south east double arrow') 1317 1318# Translators: this is the spoken representation for the character '⇙' (U+21d9) 1319_arrows['\u21d9'] = C_('math symbol', 'south west double arrow') 1320 1321# Translators: this is the spoken representation for the character '➔' (U+2794) 1322_arrows['\u2794'] = C_('math symbol', 'right-pointing arrow') 1323 1324# Translators: this is the spoken representation for the character '➢' (U+27a2) 1325_arrows['\u27a2'] = C_('math symbol', 'right-pointing arrowhead') 1326 1327# Translators: this is the spoken word for the character '-' (U+002d) when used 1328# as a MathML operator. 1329_operators["\u002d"] = C_('math symbol', 'minus') 1330 1331# Translators: this is the spoken word for the character '<' (U+003c) when used 1332# as a MathML operator. 1333_operators["\u003c"] = C_('math symbol', 'less than') 1334 1335# Translators: this is the spoken word for the character '>' (U+003e) when used 1336# as a MathML operator. 1337_operators["\u003e"] = C_('math symbol', 'greater than') 1338 1339# Translators: this is the spoken word for the character '^' (U+005e) when used 1340# as a MathML operator. 1341_operators['\u005e'] = C_('math symbol', 'circumflex') 1342 1343# Translators: this is the spoken word for the character 'ˇ' (U+02c7) when used 1344# as a MathML operator. 1345_operators['\u02c7'] = C_('math symbol', 'háček') 1346 1347# Translators: this is the spoken word for the character '˘' (U+02d8) when used 1348# as a MathML operator. 1349_operators['\u02d8'] = C_('math symbol', 'breve') 1350 1351# Translators: this is the spoken word for the character '˙' (U+02d9) when used 1352# as a MathML operator. 1353_operators['\u02d9'] = C_('math symbol', 'dot') 1354 1355# Translators: this is the spoken word for the character '‖' (U+2016) when used 1356# as a MathML operator. 1357_operators['\u2016'] = C_('math symbol', 'double vertical line') 1358 1359# Translators: this is the spoken representation for the character '…' (U+2026) 1360_operators['\u2026'] = C_('math symbol', 'horizontal ellipsis') 1361 1362# Translators: this is the spoken representation for the character '∀' (U+2200) 1363_operators['\u2200'] = C_('math symbol', 'for all') 1364 1365# Translators: this is the spoken representation for the character '∁' (U+2201) 1366_operators['\u2201'] = C_('math symbol', 'complement') 1367 1368# Translators: this is the spoken representation for the character '∂' (U+2202) 1369_operators['\u2202'] = C_('math symbol', 'partial differential') 1370 1371# Translators: this is the spoken representation for the character '∃' (U+2203) 1372_operators['\u2203'] = C_('math symbol', 'there exists') 1373 1374# Translators: this is the spoken representation for the character '∄' (U+2204) 1375_operators['\u2204'] = C_('math symbol', 'there does not exist') 1376 1377# Translators: this is the spoken representation for the character '∅' (U+2205) 1378_operators['\u2205'] = C_('math symbol', 'empty set') 1379 1380# Translators: this is the spoken representation for the character '∆' (U+2206) 1381_operators['\u2206'] = C_('math symbol', 'increment') 1382 1383# Translators: this is the spoken representation for the character '∇' (U+2207) 1384_operators['\u2207'] = C_('math symbol', 'nabla') 1385 1386# Translators: this is the spoken representation for the character '∈' (U+2208) 1387_operators['\u2208'] = C_('math symbol', 'element of') 1388 1389# Translators: this is the spoken representation for the character '∉' (U+2209) 1390_operators['\u2209'] = C_('math symbol', 'not an element of') 1391 1392# Translators: this is the spoken representation for the character '∊' (U+220a) 1393_operators['\u220a'] = C_('math symbol', 'small element of') 1394 1395# Translators: this is the spoken representation for the character '∋' (U+220b) 1396_operators['\u220b'] = C_('math symbol', 'contains as a member') 1397 1398# Translators: this is the spoken representation for the character '∌' (U+220c) 1399_operators['\u220c'] = C_('math symbol', 'does not contain as a member') 1400 1401# Translators: this is the spoken representation for the character '∍' (U+220d) 1402_operators['\u220d'] = C_('math symbol', 'small contains as a member') 1403 1404# Translators: this is the spoken representation for the character '∎' (U+220e) 1405_operators['\u220e'] = C_('math symbol', 'end of proof') 1406 1407# Translators: this is the spoken representation for the character '∏' (U+220f) 1408_operators['\u220f'] = C_('math symbol', 'product') 1409 1410# Translators: this is the spoken representation for the character '∐' (U+2210) 1411_operators['\u2210'] = C_('math symbol', 'coproduct') 1412 1413# Translators: this is the spoken representation for the character '∑' (U+2211) 1414_operators['\u2211'] = C_('math symbol', 'sum') 1415 1416# Translators: this is the spoken representation for the character '−' (U+2212) 1417_operators['\u2212'] = C_('math symbol', 'minus') 1418 1419# Translators: this is the spoken representation for the character '∓' (U+2213) 1420_operators['\u2213'] = C_('math symbol', 'minus or plus') 1421 1422# Translators: this is the spoken representation for the character '∔' (U+2214) 1423_operators['\u2214'] = C_('math symbol', 'dot plus') 1424 1425# Translators: this is the spoken representation for the character '∕' (U+2215) 1426_operators['\u2215'] = C_('math symbol', 'division slash') 1427 1428# Translators: this is the spoken representation for the character '∖' (U+2216) 1429_operators['\u2216'] = C_('math symbol', 'set minus') 1430 1431# Translators: this is the spoken representation for the character '∗' (U+2217) 1432_operators['\u2217'] = C_('math symbol', 'asterisk operator') 1433 1434# Translators: this is the spoken representation for the character '∘' (U+2218) 1435_operators['\u2218'] = C_('math symbol', 'ring operator') 1436 1437# Translators: this is the spoken representation for the character '∙' (U+2219) 1438_operators['\u2219'] = C_('math symbol', 'bullet operator') 1439 1440# Translators: this is the spoken representation for the character '√' (U+221a) 1441_operators['\u221a'] = C_('math symbol', 'square root') 1442 1443# Translators: this is the spoken representation for the character '∛' (U+221b) 1444_operators['\u221b'] = C_('math symbol', 'cube root') 1445 1446# Translators: this is the spoken representation for the character '∜' (U+221c) 1447_operators['\u221c'] = C_('math symbol', 'fourth root') 1448 1449# Translators: this is the spoken representation for the character '∝' (U+221d) 1450_operators['\u221d'] = C_('math symbol', 'proportional to') 1451 1452# Translators: this is the spoken representation for the character '∞' (U+221e) 1453_operators['\u221e'] = C_('math symbol', 'infinity') 1454 1455# Translators: this is the spoken representation for the character '∟' (U+221f) 1456_operators['\u221f'] = C_('math symbol', 'right angle') 1457 1458# Translators: this is the spoken representation for the character '∠' (U+2220) 1459_operators['\u2220'] = C_('math symbol', 'angle') 1460 1461# Translators: this is the spoken representation for the character '∡' (U+2221) 1462_operators['\u2221'] = C_('math symbol', 'measured angle') 1463 1464# Translators: this is the spoken representation for the character '∢' (U+2222) 1465_operators['\u2222'] = C_('math symbol', 'spherical angle') 1466 1467# Translators: this is the spoken representation for the character '∣' (U+2223) 1468_operators['\u2223'] = C_('math symbol', 'divides') 1469 1470# Translators: this is the spoken representation for the character '∤' (U+2224) 1471_operators['\u2224'] = C_('math symbol', 'does not divide') 1472 1473# Translators: this is the spoken representation for the character '∥' (U+2225) 1474_operators['\u2225'] = C_('math symbol', 'parallel to') 1475 1476# Translators: this is the spoken representation for the character '∦' (U+2226) 1477_operators['\u2226'] = C_('math symbol', 'not parallel to') 1478 1479# Translators: this is the spoken representation for the character '∧' (U+2227) 1480_operators['\u2227'] = C_('math symbol', 'logical and') 1481 1482# Translators: this is the spoken representation for the character '∨' (U+2228) 1483_operators['\u2228'] = C_('math symbol', 'logical or') 1484 1485# Translators: this is the spoken representation for the character '∩' (U+2229) 1486_operators['\u2229'] = C_('math symbol', 'intersection') 1487 1488# Translators: this is the spoken representation for the character '∪' (U+222a) 1489_operators['\u222a'] = C_('math symbol', 'union') 1490 1491# Translators: this is the spoken representation for the character '∫' (U+222b) 1492_operators['\u222b'] = C_('math symbol', 'integral') 1493 1494# Translators: this is the spoken representation for the character '∬' (U+222c) 1495_operators['\u222c'] = C_('math symbol', 'double integral') 1496 1497# Translators: this is the spoken representation for the character '∭' (U+222d) 1498_operators['\u222d'] = C_('math symbol', 'triple integral') 1499 1500# Translators: this is the spoken representation for the character '∮' (U+222e) 1501_operators['\u222e'] = C_('math symbol', 'contour integral') 1502 1503# Translators: this is the spoken representation for the character '∯' (U+222f) 1504_operators['\u222f'] = C_('math symbol', 'surface integral') 1505 1506# Translators: this is the spoken representation for the character '∰' (U+2230) 1507_operators['\u2230'] = C_('math symbol', 'volume integral') 1508 1509# Translators: this is the spoken representation for the character '∱' (U+2231) 1510_operators['\u2231'] = C_('math symbol', 'clockwise integral') 1511 1512# Translators: this is the spoken representation for the character '∲' (U+2232) 1513_operators['\u2232'] = C_('math symbol', 'clockwise contour integral') 1514 1515# Translators: this is the spoken representation for the character '∳' (U+2233) 1516_operators['\u2233'] = C_('math symbol', 'anticlockwise contour integral') 1517 1518# Translators: this is the spoken representation for the character '∴' (U+2234) 1519_operators['\u2234'] = C_('math symbol', 'therefore') 1520 1521# Translators: this is the spoken representation for the character '∵' (U+2235) 1522_operators['\u2235'] = C_('math symbol', 'because') 1523 1524# Translators: this is the spoken representation for the character '∶' (U+2236) 1525_operators['\u2236'] = C_('math symbol', 'ratio') 1526 1527# Translators: this is the spoken representation for the character '∷' (U+2237) 1528_operators['\u2237'] = C_('math symbol', 'proportion') 1529 1530# Translators: this is the spoken representation for the character '∸' (U+2238) 1531_operators['\u2238'] = C_('math symbol', 'dot minus') 1532 1533# Translators: this is the spoken representation for the character '∹' (U+2239) 1534_operators['\u2239'] = C_('math symbol', 'excess') 1535 1536# Translators: this is the spoken representation for the character '∺' (U+223a) 1537_operators['\u223a'] = C_('math symbol', 'geometric proportion') 1538 1539# Translators: this is the spoken representation for the character '∻' (U+223b) 1540_operators['\u223b'] = C_('math symbol', 'homothetic') 1541 1542# Translators: this is the spoken representation for the character '∼' (U+223c) 1543_operators['\u223c'] = C_('math symbol', 'tilde') 1544 1545# Translators: this is the spoken representation for the character '∽' (U+223d) 1546_operators['\u223d'] = C_('math symbol', 'reversed tilde') 1547 1548# Translators: this is the spoken representation for the character '∾' (U+223e) 1549_operators['\u223e'] = C_('math symbol', 'inverted lazy S') 1550 1551# Translators: this is the spoken representation for the character '∿' (U+223f) 1552_operators['\u223f'] = C_('math symbol', 'sine wave') 1553 1554# Translators: this is the spoken representation for the character '≀' (U+2240) 1555_operators['\u2240'] = C_('math symbol', 'wreath product') 1556 1557# Translators: this is the spoken representation for the character '≁' (U+2241) 1558_operators['\u2241'] = C_('math symbol', 'not tilde') 1559 1560# Translators: this is the spoken representation for the character '≂' (U+2242) 1561_operators['\u2242'] = C_('math symbol', 'minus tilde') 1562 1563# Translators: this is the spoken representation for the character '≃' (U+2243) 1564_operators['\u2243'] = C_('math symbol', 'asymptotically equal to') 1565 1566# Translators: this is the spoken representation for the character '≄' (U+2244) 1567_operators['\u2244'] = C_('math symbol', 'not asymptotically equal to') 1568 1569# Translators: this is the spoken representation for the character '≅' (U+2245) 1570_operators['\u2245'] = C_('math symbol', 'approximately equal to') 1571 1572# Translators: this is the spoken representation for the character '≆' (U+2246) 1573_operators['\u2246'] = C_('math symbol', 'approximately but not actually equal to') 1574 1575# Translators: this is the spoken representation for the character '≇' (U+2247) 1576_operators['\u2247'] = C_('math symbol', 'neither approximately nor actually equal to') 1577 1578# Translators: this is the spoken representation for the character '≈' (U+2248) 1579_operators['\u2248'] = C_('math symbol', 'almost equal to') 1580 1581# Translators: this is the spoken representation for the character '≉' (U+2249) 1582_operators['\u2249'] = C_('math symbol', 'not almost equal to') 1583 1584# Translators: this is the spoken representation for the character '≊' (U+224a) 1585_operators['\u224a'] = C_('math symbol', 'almost equal or equal to') 1586 1587# Translators: this is the spoken representation for the character '≋' (U+224b) 1588_operators['\u224b'] = C_('math symbol', 'triple tilde') 1589 1590# Translators: this is the spoken representation for the character '≌' (U+224c) 1591_operators['\u224c'] = C_('math symbol', 'all equal to') 1592 1593# Translators: this is the spoken representation for the character '≍' (U+224d) 1594_operators['\u224d'] = C_('math symbol', 'equivalent to') 1595 1596# Translators: this is the spoken representation for the character '≎' (U+224e) 1597_operators['\u224e'] = C_('math symbol', 'geometrically equivalent to') 1598 1599# Translators: this is the spoken representation for the character '≏' (U+224f) 1600_operators['\u224f'] = C_('math symbol', 'difference between') 1601 1602# Translators: this is the spoken representation for the character '≐' (U+2250) 1603_operators['\u2250'] = C_('math symbol', 'approaches the limit') 1604 1605# Translators: this is the spoken representation for the character '≑' (U+2251) 1606_operators['\u2251'] = C_('math symbol', 'geometrically equal to') 1607 1608# Translators: this is the spoken representation for the character '≒' (U+2252) 1609_operators['\u2252'] = C_('math symbol', 'approximately equal to or the image of') 1610 1611# Translators: this is the spoken representation for the character '≓' (U+2253) 1612_operators['\u2253'] = C_('math symbol', 'image of or approximately equal to') 1613 1614# Translators: this is the spoken representation for the character '≔' (U+2254) 1615_operators['\u2254'] = C_('math symbol', 'colon equals') 1616 1617# Translators: this is the spoken representation for the character '≕' (U+2255) 1618_operators['\u2255'] = C_('math symbol', 'equals colon') 1619 1620# Translators: this is the spoken representation for the character '≖' (U+2256) 1621_operators['\u2256'] = C_('math symbol', 'ring in equal to') 1622 1623# Translators: this is the spoken representation for the character '≗' (U+2257) 1624_operators['\u2257'] = C_('math symbol', 'ring equal to') 1625 1626# Translators: this is the spoken representation for the character '≘' (U+2258) 1627_operators['\u2258'] = C_('math symbol', 'corresponds to') 1628 1629# Translators: this is the spoken representation for the character '≙' (U+2259) 1630_operators['\u2259'] = C_('math symbol', 'estimates') 1631 1632# Translators: this is the spoken representation for the character '≚' (U+225a) 1633_operators['\u225a'] = C_('math symbol', 'equiangular to') 1634 1635# Translators: this is the spoken representation for the character '≛' (U+225b) 1636_operators['\u225b'] = C_('math symbol', 'star equals') 1637 1638# Translators: this is the spoken representation for the character '≜' (U+225c) 1639_operators['\u225c'] = C_('math symbol', 'delta equal to') 1640 1641# Translators: this is the spoken representation for the character '≝' (U+225d) 1642_operators['\u225d'] = C_('math symbol', 'equal to by definition') 1643 1644# Translators: this is the spoken representation for the character '≞' (U+225e) 1645_operators['\u225e'] = C_('math symbol', 'measured by') 1646 1647# Translators: this is the spoken representation for the character '≟' (U+225f) 1648_operators['\u225f'] = C_('math symbol', 'questioned equal to') 1649 1650# Translators: this is the spoken representation for the character '≠' (U+2260) 1651_operators['\u2260'] = C_('math symbol', 'not equal to') 1652 1653# Translators: this is the spoken representation for the character '≡' (U+2261) 1654_operators['\u2261'] = C_('math symbol', 'identical to') 1655 1656# Translators: this is the spoken representation for the character '≢' (U+2262) 1657_operators['\u2262'] = C_('math symbol', 'not identical to') 1658 1659# Translators: this is the spoken representation for the character '≣' (U+2263) 1660_operators['\u2263'] = C_('math symbol', 'strictly equivalent to') 1661 1662# Translators: this is the spoken representation for the character '≤' (U+2264) 1663_operators['\u2264'] = C_('math symbol', 'less than or equal to') 1664 1665# Translators: this is the spoken representation for the character '≥' (U+2265) 1666_operators['\u2265'] = C_('math symbol', 'greater than or equal to') 1667 1668# Translators: this is the spoken representation for the character '≦' (U+2266) 1669_operators['\u2266'] = C_('math symbol', 'less than over equal to') 1670 1671# Translators: this is the spoken representation for the character '≧' (U+2267) 1672_operators['\u2267'] = C_('math symbol', 'greater than over equal to') 1673 1674# Translators: this is the spoken representation for the character '≨' (U+2268) 1675_operators['\u2268'] = C_('math symbol', 'less than but not equal to') 1676 1677# Translators: this is the spoken representation for the character '≩' (U+2269) 1678_operators['\u2269'] = C_('math symbol', 'greater than but not equal to') 1679 1680# Translators: this is the spoken representation for the character '≪' (U+226a) 1681_operators['\u226a'] = C_('math symbol', 'much less than') 1682 1683# Translators: this is the spoken representation for the character '≫' (U+226b) 1684_operators['\u226b'] = C_('math symbol', 'much greater than') 1685 1686# Translators: this is the spoken representation for the character '≬' (U+226c) 1687_operators['\u226c'] = C_('math symbol', 'between') 1688 1689# Translators: this is the spoken representation for the character '≭' (U+226d) 1690_operators['\u226d'] = C_('math symbol', 'not equivalent to') 1691 1692# Translators: this is the spoken representation for the character '≮' (U+226e) 1693_operators['\u226e'] = C_('math symbol', 'not less than') 1694 1695# Translators: this is the spoken representation for the character '≯' (U+226f) 1696_operators['\u226f'] = C_('math symbol', 'not greater than') 1697 1698# Translators: this is the spoken representation for the character '≰' (U+2270) 1699_operators['\u2270'] = C_('math symbol', 'neither less than nor equal to') 1700 1701# Translators: this is the spoken representation for the character '≱' (U+2271) 1702_operators['\u2271'] = C_('math symbol', 'neither greater than nor equal to') 1703 1704# Translators: this is the spoken representation for the character '≲' (U+2272) 1705_operators['\u2272'] = C_('math symbol', 'less than or equivalent to') 1706 1707# Translators: this is the spoken representation for the character '≳' (U+2273) 1708_operators['\u2273'] = C_('math symbol', 'greater than or equivalent to') 1709 1710# Translators: this is the spoken representation for the character '≴' (U+2274) 1711_operators['\u2274'] = C_('math symbol', 'neither less than nor equivalent to') 1712 1713# Translators: this is the spoken representation for the character '≵' (U+2275) 1714_operators['\u2275'] = C_('math symbol', 'neither greater than nor equivalent to') 1715 1716# Translators: this is the spoken representation for the character '≶' (U+2276) 1717_operators['\u2276'] = C_('math symbol', 'less than or greater than') 1718 1719# Translators: this is the spoken representation for the character '≷' (U+2277) 1720_operators['\u2277'] = C_('math symbol', 'greater than or less than') 1721 1722# Translators: this is the spoken representation for the character '≸' (U+2278) 1723_operators['\u2278'] = C_('math symbol', 'neither less than nor greater than') 1724 1725# Translators: this is the spoken representation for the character '≹' (U+2279) 1726_operators['\u2279'] = C_('math symbol', 'neither greater than nor less than') 1727 1728# Translators: this is the spoken representation for the character '≺' (U+227a) 1729_operators['\u227a'] = C_('math symbol', 'precedes') 1730 1731# Translators: this is the spoken representation for the character '≻' (U+227b) 1732_operators['\u227b'] = C_('math symbol', 'succeeds') 1733 1734# Translators: this is the spoken representation for the character '≼' (U+227c) 1735_operators['\u227c'] = C_('math symbol', 'precedes or equal to') 1736 1737# Translators: this is the spoken representation for the character '≽' (U+227d) 1738_operators['\u227d'] = C_('math symbol', 'succeeds or equal to') 1739 1740# Translators: this is the spoken representation for the character '≾' (U+227e) 1741_operators['\u227e'] = C_('math symbol', 'precedes or equivalent to') 1742 1743# Translators: this is the spoken representation for the character '≿' (U+227f) 1744_operators['\u227f'] = C_('math symbol', 'succeeds or equivalent to') 1745 1746# Translators: this is the spoken representation for the character '⊀' (U+2280) 1747_operators['\u2280'] = C_('math symbol', 'does not precede') 1748 1749# Translators: this is the spoken representation for the character '⊁' (U+2281) 1750_operators['\u2281'] = C_('math symbol', 'does not succeed') 1751 1752# Translators: this is the spoken representation for the character '⊂' (U+2282) 1753_operators['\u2282'] = C_('math symbol', 'subset of') 1754 1755# Translators: this is the spoken representation for the character '⊃' (U+2283) 1756_operators['\u2283'] = C_('math symbol', 'superset of') 1757 1758# Translators: this is the spoken representation for the character '⊄' (U+2284) 1759_operators['\u2284'] = C_('math symbol', 'not a subset of') 1760 1761# Translators: this is the spoken representation for the character '⊅' (U+2285) 1762_operators['\u2285'] = C_('math symbol', 'not a superset of') 1763 1764# Translators: this is the spoken representation for the character '⊆' (U+2286) 1765_operators['\u2286'] = C_('math symbol', 'subset of or equal to') 1766 1767# Translators: this is the spoken representation for the character '⊇' (U+2287) 1768_operators['\u2287'] = C_('math symbol', 'superset of or equal to') 1769 1770# Translators: this is the spoken representation for the character '⊈' (U+2288) 1771_operators['\u2288'] = C_('math symbol', 'neither a subset of nor equal to') 1772 1773# Translators: this is the spoken representation for the character '⊉' (U+2289) 1774_operators['\u2289'] = C_('math symbol', 'neither a superset of nor equal to') 1775 1776# Translators: this is the spoken representation for the character '⊊' (U+228a) 1777_operators['\u228a'] = C_('math symbol', 'subset of with not equal to') 1778 1779# Translators: this is the spoken representation for the character '⊋' (U+228b) 1780_operators['\u228b'] = C_('math symbol', 'superset of with not equal to') 1781 1782# Translators: this is the spoken representation for the character '⊌' (U+228c) 1783_operators['\u228c'] = C_('math symbol', 'multiset') 1784 1785# Translators: this is the spoken representation for the character '⊍' (U+228d) 1786_operators['\u228d'] = C_('math symbol', 'multiset multiplication') 1787 1788# Translators: this is the spoken representation for the character '⊎' (U+228e) 1789_operators['\u228e'] = C_('math symbol', 'multiset union') 1790 1791# Translators: this is the spoken representation for the character '⊏' (U+228f) 1792_operators['\u228f'] = C_('math symbol', 'square image of') 1793 1794# Translators: this is the spoken representation for the character '⊐' (U+2290) 1795_operators['\u2290'] = C_('math symbol', 'square original of') 1796 1797# Translators: this is the spoken representation for the character '⊑' (U+2291) 1798_operators['\u2291'] = C_('math symbol', 'square image of or equal to') 1799 1800# Translators: this is the spoken representation for the character '⊒' (U+2292) 1801_operators['\u2292'] = C_('math symbol', 'square original of or equal to') 1802 1803# Translators: this is the spoken representation for the character '⊓' (U+2293) 1804_operators['\u2293'] = C_('math symbol', 'square cap') 1805 1806# Translators: this is the spoken representation for the character '⊔' (U+2294) 1807_operators['\u2294'] = C_('math symbol', 'square cup') 1808 1809# Translators: this is the spoken representation for the character '⊕' (U+2295) 1810_operators['\u2295'] = C_('math symbol', 'circled plus') 1811 1812# Translators: this is the spoken representation for the character '⊖' (U+2296) 1813_operators['\u2296'] = C_('math symbol', 'circled minus') 1814 1815# Translators: this is the spoken representation for the character '⊗' (U+2297) 1816_operators['\u2297'] = C_('math symbol', 'circled times') 1817 1818# Translators: this is the spoken representation for the character '⊘' (U+2298) 1819_operators['\u2298'] = C_('math symbol', 'circled division slash') 1820 1821# Translators: this is the spoken representation for the character '⊙' (U+2299) 1822_operators['\u2299'] = C_('math symbol', 'circled dot operator') 1823 1824# Translators: this is the spoken representation for the character '⊚' (U+229a) 1825_operators['\u229a'] = C_('math symbol', 'circled ring operator') 1826 1827# Translators: this is the spoken representation for the character '⊛' (U+229b) 1828_operators['\u229b'] = C_('math symbol', 'circled asterisk operator') 1829 1830# Translators: this is the spoken representation for the character '⊜' (U+229c) 1831_operators['\u229c'] = C_('math symbol', 'circled equals') 1832 1833# Translators: this is the spoken representation for the character '⊝' (U+229d) 1834_operators['\u229d'] = C_('math symbol', 'circled dash') 1835 1836# Translators: this is the spoken representation for the character '⊞' (U+229e) 1837_operators['\u229e'] = C_('math symbol', 'squared plus') 1838 1839# Translators: this is the spoken representation for the character '⊟' (U+229f) 1840_operators['\u229f'] = C_('math symbol', 'squared minus') 1841 1842# Translators: this is the spoken representation for the character '⊠' (U+22a0) 1843_operators['\u22a0'] = C_('math symbol', 'squared times') 1844 1845# Translators: this is the spoken representation for the character '⊡' (U+22a1) 1846_operators['\u22a1'] = C_('math symbol', 'squared dot operator') 1847 1848# Translators: this is the spoken representation for the character '⊢' (U+22a2) 1849_operators['\u22a2'] = C_('math symbol', 'right tack') 1850 1851# Translators: this is the spoken representation for the character '⊣' (U+22a3) 1852_operators['\u22a3'] = C_('math symbol', 'left tack') 1853 1854# Translators: this is the spoken representation for the character '⊤' (U+22a4) 1855_operators['\u22a4'] = C_('math symbol', 'down tack') 1856 1857# Translators: this is the spoken representation for the character '⊥' (U+22a5) 1858_operators['\u22a5'] = C_('math symbol', 'up tack') 1859 1860# Translators: this is the spoken representation for the character '⊦' (U+22a6) 1861_operators['\u22a6'] = C_('math symbol', 'assertion') 1862 1863# Translators: this is the spoken representation for the character '⊧' (U+22a7) 1864_operators['\u22a7'] = C_('math symbol', 'models') 1865 1866# Translators: this is the spoken representation for the character '⊨' (U+22a8) 1867_operators['\u22a8'] = C_('math symbol', 'true') 1868 1869# Translators: this is the spoken representation for the character '⊩' (U+22a9) 1870_operators['\u22a9'] = C_('math symbol', 'forces') 1871 1872# Translators: this is the spoken representation for the character '⊪' (U+22aa) 1873_operators['\u22aa'] = C_('math symbol', 'triple vertical bar right turnstile') 1874 1875# Translators: this is the spoken representation for the character '⊫' (U+22ab) 1876_operators['\u22ab'] = C_('math symbol', 'double vertical bar double right turnstile') 1877 1878# Translators: this is the spoken representation for the character '⊬' (U+22ac) 1879_operators['\u22ac'] = C_('math symbol', 'does not prove') 1880 1881# Translators: this is the spoken representation for the character '⊭' (U+22ad) 1882_operators['\u22ad'] = C_('math symbol', 'not true') 1883 1884# Translators: this is the spoken representation for the character '⊮' (U+22ae) 1885_operators['\u22ae'] = C_('math symbol', 'does not force') 1886 1887# Translators: this is the spoken representation for the character '⊯' (U+22af) 1888_operators['\u22af'] = C_('math symbol', 'negated double vertical bar double right turnstile') 1889 1890# Translators: this is the spoken representation for the character '⊰' (U+22b0) 1891_operators['\u22b0'] = C_('math symbol', 'precedes under relation') 1892 1893# Translators: this is the spoken representation for the character '⊱' (U+22b1) 1894_operators['\u22b1'] = C_('math symbol', 'succeeds under relation') 1895 1896# Translators: this is the spoken representation for the character '⊲' (U+22b2) 1897_operators['\u22b2'] = C_('math symbol', 'normal subgroup of') 1898 1899# Translators: this is the spoken representation for the character '⊳' (U+22b3) 1900_operators['\u22b3'] = C_('math symbol', 'contains as normal subgroup') 1901 1902# Translators: this is the spoken representation for the character '⊴' (U+22b4) 1903_operators['\u22b4'] = C_('math symbol', 'normal subgroup of or equal to') 1904 1905# Translators: this is the spoken representation for the character '⊵' (U+22b5) 1906_operators['\u22b5'] = C_('math symbol', 'contains as normal subgroup of or equal to') 1907 1908# Translators: this is the spoken representation for the character '⊶' (U+22b6) 1909_operators['\u22b6'] = C_('math symbol', 'original of') 1910 1911# Translators: this is the spoken representation for the character '⊷' (U+22b7) 1912_operators['\u22b7'] = C_('math symbol', 'image of') 1913 1914# Translators: this is the spoken representation for the character '⊸' (U+22b8) 1915_operators['\u22b8'] = C_('math symbol', 'multimap') 1916 1917# Translators: this is the spoken representation for the character '⊹' (U+22b9) 1918_operators['\u22b9'] = C_('math symbol', 'hermitian conjugate matrix') 1919 1920# Translators: this is the spoken representation for the character '⊺' (U+22ba) 1921_operators['\u22ba'] = C_('math symbol', 'intercalate') 1922 1923# Translators: this is the spoken representation for the character '⊻' (U+22bb) 1924_operators['\u22bb'] = C_('math symbol', 'xor') 1925 1926# Translators: this is the spoken representation for the character '⊼' (U+22bc) 1927_operators['\u22bc'] = C_('math symbol', 'nand') 1928 1929# Translators: this is the spoken representation for the character '⊽' (U+22bd) 1930_operators['\u22bd'] = C_('math symbol', 'nor') 1931 1932# Translators: this is the spoken representation for the character '⊾' (U+22be) 1933_operators['\u22be'] = C_('math symbol', 'right angle with arc') 1934 1935# Translators: this is the spoken representation for the character '⊿' (U+22bf) 1936_operators['\u22bf'] = C_('math symbol', 'right triangle') 1937 1938# Translators: this is the spoken representation for the character '⋀' (U+22c0) 1939_operators['\u22c0'] = C_('math symbol', 'logical and') 1940 1941# Translators: this is the spoken representation for the character '⋁' (U+22c1) 1942_operators['\u22c1'] = C_('math symbol', 'logical or') 1943 1944# Translators: this is the spoken representation for the character '⋂' (U+22c2) 1945_operators['\u22c2'] = C_('math symbol', 'intersection') 1946 1947# Translators: this is the spoken representation for the character '⋃' (U+22c3) 1948_operators['\u22c3'] = C_('math symbol', 'union') 1949 1950# Translators: this is the spoken representation for the character '⋄' (U+22c4) 1951_operators['\u22c4'] = C_('math symbol', 'diamond operator') 1952 1953# Translators: this is the spoken representation for the character '⋅' (U+22c5) 1954_operators['\u22c5'] = C_('math symbol', 'dot operator') 1955 1956# Translators: this is the spoken representation for the character '⋆' (U+22c6) 1957_operators['\u22c6'] = C_('math symbol', 'star operator') 1958 1959# Translators: this is the spoken representation for the character '⋇' (U+22c7) 1960_operators['\u22c7'] = C_('math symbol', 'division times') 1961 1962# Translators: this is the spoken representation for the character '⋈' (U+22c8) 1963_operators['\u22c8'] = C_('math symbol', 'bowtie') 1964 1965# Translators: this is the spoken representation for the character '⋉' (U+22c9) 1966_operators['\u22c9'] = C_('math symbol', 'left normal factor semidirect product') 1967 1968# Translators: this is the spoken representation for the character '⋊' (U+22ca) 1969_operators['\u22ca'] = C_('math symbol', 'right normal factor semidirect product') 1970 1971# Translators: this is the spoken representation for the character '⋋' (U+22cb) 1972_operators['\u22cb'] = C_('math symbol', 'left semidirect product') 1973 1974# Translators: this is the spoken representation for the character '⋌' (U+22cc) 1975_operators['\u22cc'] = C_('math symbol', 'right semidirect product') 1976 1977# Translators: this is the spoken representation for the character '⋍' (U+22cd) 1978_operators['\u22cd'] = C_('math symbol', 'reversed tilde equals') 1979 1980# Translators: this is the spoken representation for the character '⋎' (U+22ce) 1981_operators['\u22ce'] = C_('math symbol', 'curly logical or') 1982 1983# Translators: this is the spoken representation for the character '⋏' (U+22cf) 1984_operators['\u22cf'] = C_('math symbol', 'curly logical and') 1985 1986# Translators: this is the spoken representation for the character '⋐' (U+22d0) 1987_operators['\u22d0'] = C_('math symbol', 'double subset') 1988 1989# Translators: this is the spoken representation for the character '⋑' (U+22d1) 1990_operators['\u22d1'] = C_('math symbol', 'double superset') 1991 1992# Translators: this is the spoken representation for the character '⋒' (U+22d2) 1993_operators['\u22d2'] = C_('math symbol', 'double intersection') 1994 1995# Translators: this is the spoken representation for the character '⋓' (U+22d3) 1996_operators['\u22d3'] = C_('math symbol', 'double union') 1997 1998# Translators: this is the spoken representation for the character '⋔' (U+22d4) 1999_operators['\u22d4'] = C_('math symbol', 'pitchfork') 2000 2001# Translators: this is the spoken representation for the character '⋕' (U+22d5) 2002_operators['\u22d5'] = C_('math symbol', 'equal and parallel to') 2003 2004# Translators: this is the spoken representation for the character '⋖' (U+22d6) 2005_operators['\u22d6'] = C_('math symbol', 'less than with dot') 2006 2007# Translators: this is the spoken representation for the character '⋗' (U+22d7) 2008_operators['\u22d7'] = C_('math symbol', 'greater than with dot') 2009 2010# Translators: this is the spoken representation for the character '⋘' (U+22d8) 2011_operators['\u22d8'] = C_('math symbol', 'very much less than') 2012 2013# Translators: this is the spoken representation for the character '⋙' (U+22d9) 2014_operators['\u22d9'] = C_('math symbol', 'very much greater than') 2015 2016# Translators: this is the spoken representation for the character '⋚' (U+22da) 2017_operators['\u22da'] = C_('math symbol', 'less than equal to or greater than') 2018 2019# Translators: this is the spoken representation for the character '⋛' (U+22db) 2020_operators['\u22db'] = C_('math symbol', 'greater than equal to or less than') 2021 2022# Translators: this is the spoken representation for the character '⋜' (U+22dc) 2023_operators['\u22dc'] = C_('math symbol', 'equal to or less than') 2024 2025# Translators: this is the spoken representation for the character '⋝' (U+22dd) 2026_operators['\u22dd'] = C_('math symbol', 'equal to or greater than') 2027 2028# Translators: this is the spoken representation for the character '⋝' (U+22de) 2029_operators['\u22de'] = C_('math symbol', 'equal to or precedes') 2030 2031# Translators: this is the spoken representation for the character '⋝' (U+22df) 2032_operators['\u22df'] = C_('math symbol', 'equal to or succeeds') 2033 2034# Translators: this is the spoken representation for the character '⋠' (U+22e0) 2035_operators['\u22e0'] = C_('math symbol', 'does not precede or equal') 2036 2037# Translators: this is the spoken representation for the character '⋡' (U+22e1) 2038_operators['\u22e1'] = C_('math symbol', 'does not succeed or equal') 2039 2040# Translators: this is the spoken representation for the character '⋢' (U+22e2) 2041_operators['\u22e2'] = C_('math symbol', 'not square image of or equal to') 2042 2043# Translators: this is the spoken representation for the character '⋣' (U+22e3) 2044_operators['\u22e3'] = C_('math symbol', 'not square original of or equal to') 2045 2046# Translators: this is the spoken representation for the character '⋤' (U+22e4) 2047_operators['\u22e4'] = C_('math symbol', 'square image of or not equal to') 2048 2049# Translators: this is the spoken representation for the character '⋥' (U+22e5) 2050_operators['\u22e5'] = C_('math symbol', 'square original of or not equal to') 2051 2052# Translators: this is the spoken representation for the character '⋦' (U+22e6) 2053_operators['\u22e6'] = C_('math symbol', 'less than but not equivalent to') 2054 2055# Translators: this is the spoken representation for the character '⋧' (U+22e7) 2056_operators['\u22e7'] = C_('math symbol', 'greater than but not equivalent to') 2057 2058# Translators: this is the spoken representation for the character '⋨' (U+22e8) 2059_operators['\u22e8'] = C_('math symbol', 'precedes but not equivalent to') 2060 2061# Translators: this is the spoken representation for the character '⋩' (U+22e9) 2062_operators['\u22e9'] = C_('math symbol', 'succeeds but not equivalent to') 2063 2064# Translators: this is the spoken representation for the character '⋪' (U+22ea) 2065_operators['\u22ea'] = C_('math symbol', 'not normal subgroup of') 2066 2067# Translators: this is the spoken representation for the character '⋫' (U+22eb) 2068_operators['\u22eb'] = C_('math symbol', 'does not contain as normal subgroup') 2069 2070# Translators: this is the spoken representation for the character '⋬' (U+22ec) 2071_operators['\u22ec'] = C_('math symbol', 'not normal subgroup of or equal to') 2072 2073# Translators: this is the spoken representation for the character '⋭' (U+22ed) 2074_operators['\u22ed'] = C_('math symbol', 'does not contain as normal subgroup or equal') 2075 2076# Translators: this is the spoken representation for the character '⋮' (U+22ee) 2077_operators['\u22ee'] = C_('math symbol', 'vertical ellipsis') 2078 2079# Translators: this is the spoken representation for the character '⋯' (U+22ef) 2080_operators['\u22ef'] = C_('math symbol', 'midline horizontal ellipsis') 2081 2082# Translators: this is the spoken representation for the character '⋰' (U+22f0) 2083_operators['\u22f0'] = C_('math symbol', 'up right diagonal ellipsis') 2084 2085# Translators: this is the spoken representation for the character '⋱' (U+22f1) 2086_operators['\u22f1'] = C_('math symbol', 'down right diagonal ellipsis') 2087 2088# Translators: this is the spoken representation for the character '⋲' (U+22f2) 2089_operators['\u22f2'] = C_('math symbol', 'element of with long horizontal stroke') 2090 2091# Translators: this is the spoken representation for the character '⋳' (U+22f3) 2092_operators['\u22f3'] = C_('math symbol', 'element of with vertical bar at end of horizontal stroke') 2093 2094# Translators: this is the spoken representation for the character '⋴' (U+22f4) 2095_operators['\u22f4'] = C_('math symbol', 'small element of with vertical bar at end of horizontal stroke') 2096 2097# Translators: this is the spoken representation for the character '⋵' (U+22f5) 2098_operators['\u22f5'] = C_('math symbol', 'element of with dot above') 2099 2100# Translators: this is the spoken representation for the character '⋶' (U+22f6) 2101_operators['\u22f6'] = C_('math symbol', 'element of with overbar') 2102 2103# Translators: this is the spoken representation for the character '⋷' (U+22f7) 2104_operators['\u22f7'] = C_('math symbol', 'small element of with overbar') 2105 2106# Translators: this is the spoken representation for the character '⋸' (U+22f8) 2107_operators['\u22f8'] = C_('math symbol', 'element of with underbar') 2108 2109# Translators: this is the spoken representation for the character '⋹' (U+22f9) 2110_operators['\u22f9'] = C_('math symbol', 'element of with two horizontal strokes') 2111 2112# Translators: this is the spoken representation for the character '⋺' (U+22fa) 2113_operators['\u22fa'] = C_('math symbol', 'contains with long horizontal stroke') 2114 2115# Translators: this is the spoken representation for the character '⋻' (U+22fb) 2116_operators['\u22fb'] = C_('math symbol', 'contains with vertical bar at end of horizontal stroke') 2117 2118# Translators: this is the spoken representation for the character '⋼' (U+22fc) 2119_operators['\u22fc'] = C_('math symbol', 'small contains with vertical bar at end of horizontal stroke') 2120 2121# Translators: this is the spoken representation for the character '⋽' (U+22fd) 2122_operators['\u22fd'] = C_('math symbol', 'contains with overbar') 2123 2124# Translators: this is the spoken representation for the character '⋾' (U+22fe) 2125_operators['\u22fe'] = C_('math symbol', 'small contains with overbar') 2126 2127# Translators: this is the spoken representation for the character '⋿' (U+22ff) 2128_operators['\u22ff'] = C_('math symbol', 'z notation bag membership') 2129 2130# Translators: this is the spoken representation for the character '⌈' (U+2308) 2131_operators['\u2308'] = C_('math symbol', 'left ceiling') 2132 2133# Translators: this is the spoken representation for the character '⌉' (U+2309) 2134_operators['\u2309'] = C_('math symbol', 'right ceiling') 2135 2136# Translators: this is the spoken representation for the character '⌊' (U+230a) 2137_operators['\u230a'] = C_('math symbol', 'left floor') 2138 2139# Translators: this is the spoken representation for the character '⌋' (U+230b) 2140_operators['\u230b'] = C_('math symbol', 'right floor') 2141 2142# Translators: this is the spoken representation for the character '⏞' (U+23de) 2143_operators['\u23de'] = C_('math symbol', 'top brace') 2144 2145# Translators: this is the spoken representation for the character '⏟' (U+23df) 2146_operators['\u23df'] = C_('math symbol', 'bottom brace') 2147 2148# Translators: this is the spoken representation for the character '⟨' (U+27e8) 2149_operators['\u27e8'] = C_('math symbol', 'left angle bracket') 2150 2151# Translators: this is the spoken representation for the character '⟩' (U+27e9) 2152_operators['\u27e9'] = C_('math symbol', 'right angle bracket') 2153 2154# Translators: this is the spoken representation for the character '⨀' (U+2a00) 2155_operators['\u2a00'] = C_('math symbol', 'circled dot') 2156 2157# Translators: this is the spoken representation for the character '⨁' (U+2a01) 2158_operators['\u2a01'] = C_('math symbol', 'circled plus') 2159 2160# Translators: this is the spoken representation for the character '⨂' (U+2a02) 2161_operators['\u2a02'] = C_('math symbol', 'circled times') 2162# Translators: this is the spoken representation for the character '⨃' (U+2a03) 2163_operators['\u2a03'] = C_('math symbol', 'union with dot') 2164# Translators: this is the spoken representation for the character '⨄' (U+2a04) 2165_operators['\u2a04'] = C_('math symbol', 'union with plus') 2166# Translators: this is the spoken representation for the character '⨅' (U+2a05) 2167_operators['\u2a05'] = C_('math symbol', 'square intersection') 2168# Translators: this is the spoken representation for the character '⨆' (U+2a06) 2169_operators['\u2a06'] = C_('math symbol', 'square union') 2170 2171# Translators: this is the spoken representation for the character '■' (U+25a0) 2172# when used as a geometric shape (i.e. as opposed to a bullet in a list). 2173_shapes['\u25a0'] = C_('math symbol', 'black square') 2174 2175# Translators: this is the spoken representation for the character '□' (U+25a1) 2176# when used as a geometric shape (i.e. as opposed to a bullet in a list). 2177_shapes['\u25a1'] = C_('math symbol', 'white square') 2178 2179# Translators: this is the spoken representation for the character '◆' (U+25c6) 2180# when used as a geometric shape (i.e. as opposed to a bullet in a list). 2181_shapes['\u25c6'] = C_('math symbol', 'black diamond') 2182 2183# Translators: this is the spoken representation for the character '○' (U+25cb) 2184# when used as a geometric shape (i.e. as opposed to a bullet in a list). 2185_shapes['\u25cb'] = C_('math symbol', 'white circle') 2186 2187# Translators: this is the spoken representation for the character '●' (U+25cf) 2188# when used as a geometric shape (i.e. as opposed to a bullet in a list). 2189_shapes['\u25cf'] = C_('math symbol', 'black circle') 2190 2191# Translators: this is the spoken representation for the character '◦' (U+25e6) 2192_shapes['\u25e6'] = C_('math symbol', 'white bullet') 2193 2194# Translators: this is the spoken representation for the character '◾' (U+25fe) 2195# when used as a geometric shape (i.e. as opposed to a bullet in a list). 2196_shapes['\u25fe'] = C_('math symbol', 'black medium small square') 2197 2198# Translators: this is the spoken representation for the character '̱' (U+0331) 2199# which combines with the preceding character. '%s' is a placeholder for the 2200# preceding character. Some examples of combined symbols can be seen in this 2201# table: http://www.w3.org/TR/MathML3/appendixc.html#oper-dict.entries-table. 2202_combining['\u0331'] = C_('math symbol', '%s with underline') 2203 2204# Translators: this is the spoken representation for the character '̸' (U+0338) 2205# which combines with the preceding character. '%s' is a placeholder for the 2206# preceding character. Some examples of combined symbols can be seen in this 2207# table: http://www.w3.org/TR/MathML3/appendixc.html#oper-dict.entries-table. 2208_combining['\u0338'] = C_('math symbol', '%s with slash') 2209 2210# Translators: this is the spoken representation for the character '⃒' (U+20D2) 2211# which combines with the preceding character. '%s' is a placeholder for the 2212# preceding character. Some examples of combined symbols can be seen in this 2213# table: http://www.w3.org/TR/MathML3/appendixc.html#oper-dict.entries-table. 2214_combining['\u20D2'] = C_('math symbol', '%s with vertical line') 2215 2216_all.update(_alnum) 2217_all.update(_arrows) 2218_all.update(_operators) 2219_all.update(_shapes) 2220_RE = None 2221_RE_COMBINING = None 2222 2223def __compileRE(): 2224 global _RE 2225 try: 2226 _RE = re.compile('[%s]' % ''.join(list(_all.keys())), re.UNICODE) 2227 except: 2228 _RE = None 2229 2230def __compileRE_COMBINING(): 2231 global _RE_COMBINING 2232 try: 2233 _RE_COMBINING = re.compile('.[%s]' % ''.join(list(_combining.keys())), 2234 re.UNICODE) 2235 except: 2236 _RE_COMBINING = None 2237 2238def _getStyleString(symbol): 2239 o = ord(symbol) 2240 if o in _bold or o in _boldGreek or o in _boldDigits: 2241 return BOLD 2242 if o in _italic or o in _italicGreek or o in _otherItalic: 2243 return ITALIC 2244 if o in _boldItalic or o in _boldItalicGreek: 2245 return BOLD_ITALIC 2246 if o in _script or o in _otherScript: 2247 return SCRIPT 2248 if o in _boldScript: 2249 return BOLD_SCRIPT 2250 if o in _fraktur or o in _otherFraktur: 2251 return FRAKTUR 2252 if o in _doubleStruck or o in _doubleStruckDigits or o in _otherDoubleStruck: 2253 return DOUBLE_STRUCK 2254 if o in _boldFraktur: 2255 return BOLD_FRAKTUR 2256 if o in _sansSerif or o in _sansSerifDigits: 2257 return SANS_SERIF 2258 if o in _sansSerifBold or o in _sansSerifBoldGreek or o in _sansSerifBoldDigits: 2259 return SANS_SERIF_BOLD 2260 if o in _sansSerifItalic: 2261 return SANS_SERIF_ITALIC 2262 if o in _sansSerifBoldItalic or o in _sansSerifBoldItalicGreek: 2263 return SANS_SERIF_BOLD_ITALIC 2264 if o in _monospace or o in _monospaceDigits: 2265 return MONOSPACE 2266 if o in _dotless: 2267 return DOTLESS 2268 2269 return "%s" 2270 2271def updateSymbols(symbolDict): 2272 global _all 2273 _all.update(symbolDict) 2274 2275def _getSpokenName(symbol, includeStyle): 2276 if not symbol in _all: 2277 return "" 2278 2279 name = _all.get(symbol) 2280 if not name and fallbackOnUnicodeData: 2281 name = unicodedata.name(symbol).lower() 2282 updateSymbols({symbol: name}) 2283 return name 2284 2285 if includeStyle and symbol in _alnum: 2286 name = _getStyleString(symbol) % name 2287 2288 return name 2289 2290def getCharacterName(symbol): 2291 return _getSpokenName(symbol, speakStyle != SPEAK_NEVER) 2292 2293def adjustForSpeech(string): 2294 if _RE is None: 2295 __compileRE() 2296 2297 if _RE_COMBINING is None: 2298 __compileRE_COMBINING() 2299 2300 if _RE_COMBINING is not None: 2301 combiningPairs = set(re.findall(_RE_COMBINING, string)) 2302 for pair in combiningPairs: 2303 name = _combining.get(pair[1]) 2304 if name: 2305 string = re.sub(pair, " %s " % (name % pair[0]), string) 2306 2307 if _RE is not None: 2308 chars = set(re.findall(_RE, string)) 2309 includeStyle = speakStyle == SPEAK_ALWAYS 2310 for char in chars: 2311 name = _getSpokenName(char, includeStyle) 2312 if name: 2313 string = re.sub(char, " %s " % name, string) 2314 2315 return string 2316