1 // Copyright 2015-2016 Mozilla Foundation. See the COPYRIGHT 2 // file at the top-level directory of this distribution. 3 // 4 // Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or 5 // https://www.apache.org/licenses/LICENSE-2.0> or the MIT license 6 // <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your 7 // option. This file may not be copied, modified, or distributed 8 // except according to those terms. 9 10 macro_rules! decoder_function { 11 ($preamble:block, 12 $loop_preable:block, 13 $eof:block, 14 $body:block, 15 $slf:ident, 16 $src_consumed:ident, 17 $dest:ident, 18 $source:ident, 19 $b:ident, 20 $destination_handle:ident, 21 $unread_handle:ident, 22 $destination_check:ident, 23 $name:ident, 24 $code_unit:ty, 25 $dest_struct:ident) => ( 26 pub fn $name(&mut $slf, 27 src: &[u8], 28 dst: &mut [$code_unit], 29 last: bool) 30 -> (DecoderResult, usize, usize) { 31 let mut $source = ByteSource::new(src); 32 let mut $dest = $dest_struct::new(dst); 33 loop { // TODO: remove this loop 34 { 35 // Start non-boilerplate 36 $preamble 37 // End non-boilerplate 38 } 39 loop { 40 { 41 $loop_preable 42 } 43 match $source.check_available() { 44 Space::Full($src_consumed) => { 45 if last { 46 // Start non-boilerplate 47 $eof 48 // End non-boilerplate 49 } 50 return (DecoderResult::InputEmpty, $src_consumed, $dest.written()); 51 } 52 Space::Available(source_handle) => { 53 match $dest.$destination_check() { 54 Space::Full(dst_written) => { 55 return (DecoderResult::OutputFull, 56 source_handle.consumed(), 57 dst_written); 58 } 59 Space::Available($destination_handle) => { 60 let ($b, $unread_handle) = source_handle.read(); 61 // Start non-boilerplate 62 $body 63 // End non-boilerplate 64 } 65 } 66 } 67 } 68 } 69 } 70 }); 71 } 72 73 macro_rules! decoder_functions { 74 ( 75 $preamble:block, 76 $loop_preable:block, 77 $eof:block, 78 $body:block, 79 $slf:ident, 80 $src_consumed:ident, 81 $dest:ident, 82 $source:ident, 83 $b:ident, 84 $destination_handle:ident, 85 $unread_handle:ident, 86 $destination_check:ident 87 ) => { 88 decoder_function!( 89 $preamble, 90 $loop_preable, 91 $eof, 92 $body, 93 $slf, 94 $src_consumed, 95 $dest, 96 $source, 97 $b, 98 $destination_handle, 99 $unread_handle, 100 $destination_check, 101 decode_to_utf8_raw, 102 u8, 103 Utf8Destination 104 ); 105 decoder_function!( 106 $preamble, 107 $loop_preable, 108 $eof, 109 $body, 110 $slf, 111 $src_consumed, 112 $dest, 113 $source, 114 $b, 115 $destination_handle, 116 $unread_handle, 117 $destination_check, 118 decode_to_utf16_raw, 119 u16, 120 Utf16Destination 121 ); 122 }; 123 } 124 125 macro_rules! ascii_compatible_two_byte_decoder_function { 126 ($lead:block, 127 $trail:block, 128 $slf:ident, 129 $non_ascii:ident, 130 $byte:ident, 131 $lead_minus_offset:ident, 132 $unread_handle_trail:ident, 133 $source:ident, 134 $handle:ident, 135 $outermost:tt, 136 $copy_ascii:ident, 137 $destination_check:ident, 138 $name:ident, 139 $code_unit:ty, 140 $dest_struct:ident, 141 $ascii_punctuation:expr) => ( 142 pub fn $name(&mut $slf, 143 src: &[u8], 144 dst: &mut [$code_unit], 145 last: bool) 146 -> (DecoderResult, usize, usize) { 147 let mut $source = ByteSource::new(src); 148 let mut dest_prolog = $dest_struct::new(dst); 149 let dest = match $slf.lead { 150 Some(lead) => { 151 let $lead_minus_offset = lead; 152 $slf.lead = None; 153 // Since we don't have `goto` we could use to jump into the trail 154 // handling part of the main loop, we need to repeat trail handling 155 // here. 156 match $source.check_available() { 157 Space::Full(src_consumed_prolog) => { 158 if last { 159 return (DecoderResult::Malformed(1, 0), 160 src_consumed_prolog, 161 dest_prolog.written()); 162 } 163 return (DecoderResult::InputEmpty, src_consumed_prolog, dest_prolog.written()); 164 } 165 Space::Available(source_handle_prolog) => { 166 match dest_prolog.$destination_check() { 167 Space::Full(dst_written_prolog) => { 168 return (DecoderResult::OutputFull, 169 source_handle_prolog.consumed(), 170 dst_written_prolog); 171 } 172 Space::Available($handle) => { 173 let ($byte, $unread_handle_trail) = source_handle_prolog.read(); 174 // Start non-boilerplate 175 $trail 176 // End non-boilerplate 177 } 178 } 179 } 180 } 181 }, 182 None => { 183 &mut dest_prolog 184 } 185 }; 186 $outermost: loop { 187 match dest.$copy_ascii(&mut $source) { 188 CopyAsciiResult::Stop(ret) => return ret, 189 CopyAsciiResult::GoOn((mut $non_ascii, mut $handle)) => { 190 'middle: loop { 191 let dest_again = { 192 let $lead_minus_offset = { 193 // Start non-boilerplate 194 $lead 195 // End non-boilerplate 196 }; 197 match $source.check_available() { 198 Space::Full(src_consumed_trail) => { 199 if last { 200 return (DecoderResult::Malformed(1, 0), 201 src_consumed_trail, 202 $handle.written()); 203 } 204 $slf.lead = Some($lead_minus_offset); 205 return (DecoderResult::InputEmpty, 206 src_consumed_trail, 207 $handle.written()); 208 } 209 Space::Available(source_handle_trail) => { 210 let ($byte, $unread_handle_trail) = source_handle_trail.read(); 211 // Start non-boilerplate 212 $trail 213 // End non-boilerplate 214 } 215 } 216 }; 217 match $source.check_available() { 218 Space::Full(src_consumed) => { 219 return (DecoderResult::InputEmpty, 220 src_consumed, 221 dest_again.written()); 222 } 223 Space::Available(source_handle) => { 224 match dest_again.$destination_check() { 225 Space::Full(dst_written) => { 226 return (DecoderResult::OutputFull, 227 source_handle.consumed(), 228 dst_written); 229 } 230 Space::Available(mut destination_handle) => { 231 let (mut b, unread_handle) = source_handle.read(); 232 let source_again = unread_handle.commit(); 233 'innermost: loop { 234 if b > 127 { 235 $non_ascii = b; 236 $handle = destination_handle; 237 continue 'middle; 238 } 239 // Testing on Haswell says that we should write the 240 // byte unconditionally instead of trying to unread it 241 // to make it part of the next SIMD stride. 242 let dest_again_again = 243 destination_handle.write_ascii(b); 244 if $ascii_punctuation && b < 60 { 245 // We've got punctuation 246 match source_again.check_available() { 247 Space::Full(src_consumed_again) => { 248 return (DecoderResult::InputEmpty, 249 src_consumed_again, 250 dest_again_again.written()); 251 } 252 Space::Available(source_handle_again) => { 253 match dest_again_again.$destination_check() { 254 Space::Full(dst_written_again) => { 255 return (DecoderResult::OutputFull, 256 source_handle_again.consumed(), 257 dst_written_again); 258 } 259 Space::Available(destination_handle_again) => { 260 { 261 let (b_again, _unread_handle_again) = 262 source_handle_again.read(); 263 b = b_again; 264 destination_handle = destination_handle_again; 265 continue 'innermost; 266 } 267 } 268 } 269 } 270 } 271 } 272 // We've got markup or ASCII text 273 continue $outermost; 274 } 275 } 276 } 277 } 278 } 279 } 280 } 281 } 282 } 283 }); 284 } 285 286 macro_rules! ascii_compatible_two_byte_decoder_functions { 287 ( 288 $lead:block, 289 $trail:block, 290 $slf:ident, 291 $non_ascii:ident, 292 $byte:ident, 293 $lead_minus_offset:ident, 294 $unread_handle_trail:ident, 295 $source:ident, 296 $handle:ident, 297 $outermost:tt, 298 $copy_ascii:ident, 299 $destination_check:ident, 300 $ascii_punctuation:expr 301 ) => { 302 ascii_compatible_two_byte_decoder_function!( 303 $lead, 304 $trail, 305 $slf, 306 $non_ascii, 307 $byte, 308 $lead_minus_offset, 309 $unread_handle_trail, 310 $source, 311 $handle, 312 $outermost, 313 $copy_ascii, 314 $destination_check, 315 decode_to_utf8_raw, 316 u8, 317 Utf8Destination, 318 $ascii_punctuation 319 ); 320 ascii_compatible_two_byte_decoder_function!( 321 $lead, 322 $trail, 323 $slf, 324 $non_ascii, 325 $byte, 326 $lead_minus_offset, 327 $unread_handle_trail, 328 $source, 329 $handle, 330 $outermost, 331 $copy_ascii, 332 $destination_check, 333 decode_to_utf16_raw, 334 u16, 335 Utf16Destination, 336 $ascii_punctuation 337 ); 338 }; 339 } 340 341 macro_rules! gb18030_decoder_function { 342 ($first_body:block, 343 $second_body:block, 344 $third_body:block, 345 $fourth_body:block, 346 $slf:ident, 347 $non_ascii:ident, 348 $first_minus_offset:ident, 349 $second:ident, 350 $second_minus_offset:ident, 351 $unread_handle_second:ident, 352 $third:ident, 353 $third_minus_offset:ident, 354 $unread_handle_third:ident, 355 $fourth:ident, 356 $fourth_minus_offset:ident, 357 $unread_handle_fourth:ident, 358 $source:ident, 359 $handle:ident, 360 $outermost:tt, 361 $name:ident, 362 $code_unit:ty, 363 $dest_struct:ident) => ( 364 #[cfg_attr(feature = "cargo-clippy", allow(never_loop))] 365 pub fn $name(&mut $slf, 366 src: &[u8], 367 dst: &mut [$code_unit], 368 last: bool) 369 -> (DecoderResult, usize, usize) { 370 let mut $source = ByteSource::new(src); 371 let mut dest = $dest_struct::new(dst); 372 { 373 if let Some(ascii) = $slf.pending_ascii { 374 match dest.check_space_bmp() { 375 Space::Full(_) => { 376 return (DecoderResult::OutputFull, 0, 0); 377 } 378 Space::Available(pending_ascii_handle) => { 379 $slf.pending_ascii = None; 380 pending_ascii_handle.write_ascii(ascii); 381 } 382 } 383 } 384 } 385 while !$slf.pending.is_none() { 386 match $source.check_available() { 387 Space::Full(src_consumed) => { 388 if last { 389 // Start non-boilerplate 390 let count = $slf.pending.count(); 391 $slf.pending = Gb18030Pending::None; 392 return (DecoderResult::Malformed(count as u8, 0), 393 src_consumed, 394 dest.written()); 395 // End non-boilerplate 396 } 397 return (DecoderResult::InputEmpty, src_consumed, dest.written()); 398 } 399 Space::Available(source_handle) => { 400 match dest.check_space_astral() { 401 Space::Full(dst_written) => { 402 return (DecoderResult::OutputFull, 403 source_handle.consumed(), 404 dst_written); 405 } 406 Space::Available($handle) => { 407 let (byte, unread_handle) = source_handle.read(); 408 match $slf.pending { 409 Gb18030Pending::One($first_minus_offset) => { 410 $slf.pending = Gb18030Pending::None; 411 let $second = byte; 412 let $unread_handle_second = unread_handle; 413 // If second is between 0x40 and 0x7E, 414 // inclusive, subtract offset 0x40. Else if 415 // second is between 0x80 and 0xFE, inclusive, 416 // subtract offset 0x41. In both cases, 417 // handle as a two-byte sequence. 418 // Else if second is between 0x30 and 0x39, 419 // inclusive, subtract offset 0x30 and 420 // handle as a four-byte sequence. 421 let $second_minus_offset = $second.wrapping_sub(0x30); 422 // It's not optimal to do this check first, 423 // but this results in more readable code. 424 if $second_minus_offset > (0x39 - 0x30) { 425 // Start non-boilerplate 426 $second_body 427 // End non-boilerplate 428 } else { 429 // Four-byte! 430 $slf.pending = Gb18030Pending::Two($first_minus_offset, 431 $second_minus_offset); 432 $handle.commit() 433 } 434 } 435 Gb18030Pending::Two($first_minus_offset, $second_minus_offset) => { 436 $slf.pending = Gb18030Pending::None; 437 let $third = byte; 438 let $unread_handle_third = unread_handle; 439 let $third_minus_offset = { 440 // Start non-boilerplate 441 $third_body 442 // End non-boilerplate 443 }; 444 $slf.pending = Gb18030Pending::Three($first_minus_offset, 445 $second_minus_offset, 446 $third_minus_offset); 447 $handle.commit() 448 } 449 Gb18030Pending::Three($first_minus_offset, 450 $second_minus_offset, 451 $third_minus_offset) => { 452 $slf.pending = Gb18030Pending::None; 453 let $fourth = byte; 454 let $unread_handle_fourth = unread_handle; 455 // Start non-boilerplate 456 $fourth_body 457 // End non-boilerplate 458 } 459 Gb18030Pending::None => unreachable!("Checked in loop condition"), 460 }; 461 } 462 } 463 } 464 } 465 } 466 $outermost: loop { 467 match dest.copy_ascii_from_check_space_astral(&mut $source) { 468 CopyAsciiResult::Stop(ret) => return ret, 469 CopyAsciiResult::GoOn((mut $non_ascii, mut $handle)) => { 470 'middle: loop { 471 let dest_again = { 472 let $first_minus_offset = { 473 // Start non-boilerplate 474 $first_body 475 // End non-boilerplate 476 }; 477 match $source.check_available() { 478 Space::Full(src_consumed_trail) => { 479 if last { 480 return (DecoderResult::Malformed(1, 0), 481 src_consumed_trail, 482 $handle.written()); 483 } 484 $slf.pending = Gb18030Pending::One($first_minus_offset); 485 return (DecoderResult::InputEmpty, 486 src_consumed_trail, 487 $handle.written()); 488 } 489 Space::Available(source_handle_trail) => { 490 let ($second, $unread_handle_second) = source_handle_trail.read(); 491 // Start non-boilerplate 492 // If second is between 0x40 and 0x7E, 493 // inclusive, subtract offset 0x40. Else if 494 // second is between 0x80 and 0xFE, inclusive, 495 // subtract offset 0x41. In both cases, 496 // handle as a two-byte sequence. 497 // Else if second is between 0x30 and 0x39, 498 // inclusive, subtract offset 0x30 and 499 // handle as a four-byte sequence. 500 let $second_minus_offset = $second.wrapping_sub(0x30); 501 // It's not optimal to do this check first, 502 // but this results in more readable code. 503 if $second_minus_offset > (0x39 - 0x30) { 504 // Start non-boilerplate 505 $second_body 506 // End non-boilerplate 507 } else { 508 // Four-byte! 509 match $unread_handle_second.commit().check_available() { 510 Space::Full(src_consumed_third) => { 511 if last { 512 return (DecoderResult::Malformed(2, 0), 513 src_consumed_third, 514 $handle.written()); 515 } 516 $slf.pending = 517 Gb18030Pending::Two($first_minus_offset, 518 $second_minus_offset); 519 return (DecoderResult::InputEmpty, 520 src_consumed_third, 521 $handle.written()); 522 } 523 Space::Available(source_handle_third) => { 524 let ($third, $unread_handle_third) = 525 source_handle_third.read(); 526 let $third_minus_offset = { 527 // Start non-boilerplate 528 $third_body 529 // End non-boilerplate 530 }; 531 match $unread_handle_third.commit() 532 .check_available() { 533 Space::Full(src_consumed_fourth) => { 534 if last { 535 return (DecoderResult::Malformed(3, 0), 536 src_consumed_fourth, 537 $handle.written()); 538 } 539 $slf.pending = Gb18030Pending::Three($first_minus_offset, $second_minus_offset, $third_minus_offset); 540 return (DecoderResult::InputEmpty, 541 src_consumed_fourth, 542 $handle.written()); 543 } 544 Space::Available(source_handle_fourth) => { 545 let ($fourth, $unread_handle_fourth) = 546 source_handle_fourth.read(); 547 // Start non-boilerplate 548 $fourth_body 549 // End non-boilerplate 550 } 551 } 552 } 553 } 554 } 555 // End non-boilerplate 556 } 557 } 558 }; 559 match $source.check_available() { 560 Space::Full(src_consumed) => { 561 return (DecoderResult::InputEmpty, 562 src_consumed, 563 dest_again.written()); 564 } 565 Space::Available(source_handle) => { 566 match dest_again.check_space_astral() { 567 Space::Full(dst_written) => { 568 return (DecoderResult::OutputFull, 569 source_handle.consumed(), 570 dst_written); 571 } 572 Space::Available(destination_handle) => { 573 let (b, _) = source_handle.read(); 574 'innermost: loop { 575 if b > 127 { 576 $non_ascii = b; 577 $handle = destination_handle; 578 continue 'middle; 579 } 580 // Testing on Haswell says that we should write the 581 // byte unconditionally instead of trying to unread it 582 // to make it part of the next SIMD stride. 583 destination_handle.write_ascii(b); 584 // We've got markup or ASCII text 585 continue $outermost; 586 } 587 } 588 } 589 } 590 } 591 } 592 } 593 } 594 } 595 }); 596 } 597 598 macro_rules! gb18030_decoder_functions { 599 ( 600 $first_body:block, 601 $second_body:block, 602 $third_body:block, 603 $fourth_body:block, 604 $slf:ident, 605 $non_ascii:ident, 606 $first_minus_offset:ident, 607 $second:ident, 608 $second_minus_offset:ident, 609 $unread_handle_second:ident, 610 $third:ident, 611 $third_minus_offset:ident, 612 $unread_handle_third:ident, 613 $fourth:ident, 614 $fourth_minus_offset:ident, 615 $unread_handle_fourth:ident, 616 $source:ident, 617 $handle:ident, 618 $outermost:tt 619 ) => { 620 gb18030_decoder_function!( 621 $first_body, 622 $second_body, 623 $third_body, 624 $fourth_body, 625 $slf, 626 $non_ascii, 627 $first_minus_offset, 628 $second, 629 $second_minus_offset, 630 $unread_handle_second, 631 $third, 632 $third_minus_offset, 633 $unread_handle_third, 634 $fourth, 635 $fourth_minus_offset, 636 $unread_handle_fourth, 637 $source, 638 $handle, 639 $outermost, 640 decode_to_utf8_raw, 641 u8, 642 Utf8Destination 643 ); 644 gb18030_decoder_function!( 645 $first_body, 646 $second_body, 647 $third_body, 648 $fourth_body, 649 $slf, 650 $non_ascii, 651 $first_minus_offset, 652 $second, 653 $second_minus_offset, 654 $unread_handle_second, 655 $third, 656 $third_minus_offset, 657 $unread_handle_third, 658 $fourth, 659 $fourth_minus_offset, 660 $unread_handle_fourth, 661 $source, 662 $handle, 663 $outermost, 664 decode_to_utf16_raw, 665 u16, 666 Utf16Destination 667 ); 668 }; 669 } 670 671 macro_rules! euc_jp_decoder_function { 672 ($jis0802_trail_body:block, 673 $jis0812_lead_body:block, 674 $jis0812_trail_body:block, 675 $half_width_katakana_body:block, 676 $slf:ident, 677 $non_ascii:ident, 678 $jis0208_lead_minus_offset:ident, 679 $byte:ident, 680 $unread_handle_trail:ident, 681 $jis0212_lead_minus_offset:ident, 682 $lead:ident, 683 $unread_handle_jis0212:ident, 684 $source:ident, 685 $handle:ident, 686 $name:ident, 687 $code_unit:ty, 688 $dest_struct:ident) => ( 689 #[cfg_attr(feature = "cargo-clippy", allow(never_loop))] 690 pub fn $name(&mut $slf, 691 src: &[u8], 692 dst: &mut [$code_unit], 693 last: bool) 694 -> (DecoderResult, usize, usize) { 695 let mut $source = ByteSource::new(src); 696 let mut dest = $dest_struct::new(dst); 697 while !$slf.pending.is_none() { 698 match $source.check_available() { 699 Space::Full(src_consumed) => { 700 if last { 701 // Start non-boilerplate 702 let count = $slf.pending.count(); 703 $slf.pending = EucJpPending::None; 704 return (DecoderResult::Malformed(count as u8, 0), 705 src_consumed, 706 dest.written()); 707 // End non-boilerplate 708 } 709 return (DecoderResult::InputEmpty, src_consumed, dest.written()); 710 } 711 Space::Available(source_handle) => { 712 match dest.check_space_bmp() { 713 Space::Full(dst_written) => { 714 return (DecoderResult::OutputFull, 715 source_handle.consumed(), 716 dst_written); 717 } 718 Space::Available($handle) => { 719 let ($byte, $unread_handle_trail) = source_handle.read(); 720 match $slf.pending { 721 EucJpPending::Jis0208Lead($jis0208_lead_minus_offset) => { 722 $slf.pending = EucJpPending::None; 723 // Start non-boilerplate 724 $jis0802_trail_body 725 // End non-boilerplate 726 } 727 EucJpPending::Jis0212Shift => { 728 $slf.pending = EucJpPending::None; 729 let $lead = $byte; 730 let $unread_handle_jis0212 = $unread_handle_trail; 731 let $jis0212_lead_minus_offset = { 732 // Start non-boilerplate 733 $jis0812_lead_body 734 // End non-boilerplate 735 }; 736 $slf.pending = 737 EucJpPending::Jis0212Lead($jis0212_lead_minus_offset); 738 $handle.commit() 739 } 740 EucJpPending::Jis0212Lead($jis0212_lead_minus_offset) => { 741 $slf.pending = EucJpPending::None; 742 // Start non-boilerplate 743 $jis0812_trail_body 744 // End non-boilerplate 745 } 746 EucJpPending::HalfWidthKatakana => { 747 $slf.pending = EucJpPending::None; 748 // Start non-boilerplate 749 $half_width_katakana_body 750 // End non-boilerplate 751 } 752 EucJpPending::None => unreachable!("Checked in loop condition"), 753 }; 754 } 755 } 756 } 757 } 758 } 759 'outermost: loop { 760 match dest.copy_ascii_from_check_space_bmp(&mut $source) { 761 CopyAsciiResult::Stop(ret) => return ret, 762 CopyAsciiResult::GoOn((mut $non_ascii, mut $handle)) => { 763 'middle: loop { 764 let dest_again = { 765 // If lead is between 0xA1 and 0xFE, inclusive, 766 // subtract 0xA1. Else if lead is 0x8E, handle the 767 // next byte as half-width Katakana. Else if lead is 768 // 0x8F, expect JIS 0212. 769 let $jis0208_lead_minus_offset = $non_ascii.wrapping_sub(0xA1); 770 if $jis0208_lead_minus_offset <= (0xFE - 0xA1) { 771 // JIS 0208 772 match $source.check_available() { 773 Space::Full(src_consumed_trail) => { 774 if last { 775 return (DecoderResult::Malformed(1, 0), 776 src_consumed_trail, 777 $handle.written()); 778 } 779 $slf.pending = 780 EucJpPending::Jis0208Lead($jis0208_lead_minus_offset); 781 return (DecoderResult::InputEmpty, 782 src_consumed_trail, 783 $handle.written()); 784 } 785 Space::Available(source_handle_trail) => { 786 let ($byte, $unread_handle_trail) = 787 source_handle_trail.read(); 788 // Start non-boilerplate 789 $jis0802_trail_body 790 // End non-boilerplate 791 } 792 } 793 } else if $non_ascii == 0x8F { 794 match $source.check_available() { 795 Space::Full(src_consumed_jis0212) => { 796 if last { 797 return (DecoderResult::Malformed(1, 0), 798 src_consumed_jis0212, 799 $handle.written()); 800 } 801 $slf.pending = EucJpPending::Jis0212Shift; 802 return (DecoderResult::InputEmpty, 803 src_consumed_jis0212, 804 $handle.written()); 805 } 806 Space::Available(source_handle_jis0212) => { 807 let ($lead, $unread_handle_jis0212) = 808 source_handle_jis0212.read(); 809 let $jis0212_lead_minus_offset = { 810 // Start non-boilerplate 811 $jis0812_lead_body 812 // End non-boilerplate 813 }; 814 match $unread_handle_jis0212.commit().check_available() { 815 Space::Full(src_consumed_trail) => { 816 if last { 817 return (DecoderResult::Malformed(2, 0), 818 src_consumed_trail, 819 $handle.written()); 820 } 821 $slf.pending = EucJpPending::Jis0212Lead($jis0212_lead_minus_offset); 822 return (DecoderResult::InputEmpty, 823 src_consumed_trail, 824 $handle.written()); 825 } 826 Space::Available(source_handle_trail) => { 827 let ($byte, $unread_handle_trail) = 828 source_handle_trail.read(); 829 // Start non-boilerplate 830 $jis0812_trail_body 831 // End non-boilerplate 832 } 833 } 834 } 835 } 836 } else if $non_ascii == 0x8E { 837 match $source.check_available() { 838 Space::Full(src_consumed_trail) => { 839 if last { 840 return (DecoderResult::Malformed(1, 0), 841 src_consumed_trail, 842 $handle.written()); 843 } 844 $slf.pending = EucJpPending::HalfWidthKatakana; 845 return (DecoderResult::InputEmpty, 846 src_consumed_trail, 847 $handle.written()); 848 } 849 Space::Available(source_handle_trail) => { 850 let ($byte, $unread_handle_trail) = 851 source_handle_trail.read(); 852 // Start non-boilerplate 853 $half_width_katakana_body 854 // End non-boilerplate 855 } 856 } 857 } else { 858 return (DecoderResult::Malformed(1, 0), 859 $source.consumed(), 860 $handle.written()); 861 } 862 }; 863 match $source.check_available() { 864 Space::Full(src_consumed) => { 865 return (DecoderResult::InputEmpty, 866 src_consumed, 867 dest_again.written()); 868 } 869 Space::Available(source_handle) => { 870 match dest_again.check_space_bmp() { 871 Space::Full(dst_written) => { 872 return (DecoderResult::OutputFull, 873 source_handle.consumed(), 874 dst_written); 875 } 876 Space::Available(destination_handle) => { 877 let (b, _) = source_handle.read(); 878 'innermost: loop { 879 if b > 127 { 880 $non_ascii = b; 881 $handle = destination_handle; 882 continue 'middle; 883 } 884 // Testing on Haswell says that we should write the 885 // byte unconditionally instead of trying to unread it 886 // to make it part of the next SIMD stride. 887 destination_handle.write_ascii(b); 888 // We've got markup or ASCII text 889 continue 'outermost; 890 } 891 } 892 } 893 } 894 } 895 } 896 } 897 } 898 } 899 }); 900 } 901 902 macro_rules! euc_jp_decoder_functions { 903 ( 904 $jis0802_trail_body:block, 905 $jis0812_lead_body:block, 906 $jis0812_trail_body:block, 907 $half_width_katakana_body:block, 908 $slf:ident, 909 $non_ascii:ident, 910 $jis0208_lead_minus_offset:ident, 911 $byte:ident, 912 $unread_handle_trail:ident, 913 $jis0212_lead_minus_offset:ident, 914 $lead:ident, 915 $unread_handle_jis0212:ident, 916 $source:ident, 917 $handle:ident 918 ) => { 919 euc_jp_decoder_function!( 920 $jis0802_trail_body, 921 $jis0812_lead_body, 922 $jis0812_trail_body, 923 $half_width_katakana_body, 924 $slf, 925 $non_ascii, 926 $jis0208_lead_minus_offset, 927 $byte, 928 $unread_handle_trail, 929 $jis0212_lead_minus_offset, 930 $lead, 931 $unread_handle_jis0212, 932 $source, 933 $handle, 934 decode_to_utf8_raw, 935 u8, 936 Utf8Destination 937 ); 938 euc_jp_decoder_function!( 939 $jis0802_trail_body, 940 $jis0812_lead_body, 941 $jis0812_trail_body, 942 $half_width_katakana_body, 943 $slf, 944 $non_ascii, 945 $jis0208_lead_minus_offset, 946 $byte, 947 $unread_handle_trail, 948 $jis0212_lead_minus_offset, 949 $lead, 950 $unread_handle_jis0212, 951 $source, 952 $handle, 953 decode_to_utf16_raw, 954 u16, 955 Utf16Destination 956 ); 957 }; 958 } 959 960 macro_rules! encoder_function { 961 ($eof:block, 962 $body:block, 963 $slf:ident, 964 $src_consumed:ident, 965 $source:ident, 966 $dest:ident, 967 $c:ident, 968 $destination_handle:ident, 969 $unread_handle:ident, 970 $destination_check:ident, 971 $name:ident, 972 $input:ty, 973 $source_struct:ident) => ( 974 pub fn $name(&mut $slf, 975 src: &$input, 976 dst: &mut [u8], 977 last: bool) 978 -> (EncoderResult, usize, usize) { 979 let mut $source = $source_struct::new(src); 980 let mut $dest = ByteDestination::new(dst); 981 loop { 982 match $source.check_available() { 983 Space::Full($src_consumed) => { 984 if last { 985 // Start non-boilerplate 986 $eof 987 // End non-boilerplate 988 } 989 return (EncoderResult::InputEmpty, $src_consumed, $dest.written()); 990 } 991 Space::Available(source_handle) => { 992 match $dest.$destination_check() { 993 Space::Full(dst_written) => { 994 return (EncoderResult::OutputFull, 995 source_handle.consumed(), 996 dst_written); 997 } 998 Space::Available($destination_handle) => { 999 let ($c, $unread_handle) = source_handle.read(); 1000 // Start non-boilerplate 1001 $body 1002 // End non-boilerplate 1003 } 1004 } 1005 } 1006 } 1007 } 1008 }); 1009 } 1010 1011 macro_rules! encoder_functions { 1012 ( 1013 $eof:block, 1014 $body:block, 1015 $slf:ident, 1016 $src_consumed:ident, 1017 $source:ident, 1018 $dest:ident, 1019 $c:ident, 1020 $destination_handle:ident, 1021 $unread_handle:ident, 1022 $destination_check:ident 1023 ) => { 1024 encoder_function!( 1025 $eof, 1026 $body, 1027 $slf, 1028 $src_consumed, 1029 $source, 1030 $dest, 1031 $c, 1032 $destination_handle, 1033 $unread_handle, 1034 $destination_check, 1035 encode_from_utf8_raw, 1036 str, 1037 Utf8Source 1038 ); 1039 encoder_function!( 1040 $eof, 1041 $body, 1042 $slf, 1043 $src_consumed, 1044 $source, 1045 $dest, 1046 $c, 1047 $destination_handle, 1048 $unread_handle, 1049 $destination_check, 1050 encode_from_utf16_raw, 1051 [u16], 1052 Utf16Source 1053 ); 1054 }; 1055 } 1056 1057 macro_rules! ascii_compatible_encoder_function { 1058 ($bmp_body:block, 1059 $astral_body:block, 1060 $bmp:ident, 1061 $astral:ident, 1062 $slf:ident, 1063 $source:ident, 1064 $handle:ident, 1065 $copy_ascii:ident, 1066 $destination_check:ident, 1067 $name:ident, 1068 $input:ty, 1069 $source_struct:ident, 1070 $ascii_punctuation:expr) => ( 1071 pub fn $name(&mut $slf, 1072 src: &$input, 1073 dst: &mut [u8], 1074 _last: bool) 1075 -> (EncoderResult, usize, usize) { 1076 let mut $source = $source_struct::new(src); 1077 let mut dest = ByteDestination::new(dst); 1078 'outermost: loop { 1079 match $source.$copy_ascii(&mut dest) { 1080 CopyAsciiResult::Stop(ret) => return ret, 1081 CopyAsciiResult::GoOn((mut non_ascii, mut $handle)) => { 1082 'middle: loop { 1083 let dest_again = match non_ascii { 1084 NonAscii::BmpExclAscii($bmp) => { 1085 // Start non-boilerplate 1086 $bmp_body 1087 // End non-boilerplate 1088 } 1089 NonAscii::Astral($astral) => { 1090 // Start non-boilerplate 1091 $astral_body 1092 // End non-boilerplate 1093 } 1094 }; 1095 match $source.check_available() { 1096 Space::Full(src_consumed) => { 1097 return (EncoderResult::InputEmpty, 1098 src_consumed, 1099 dest_again.written()); 1100 } 1101 Space::Available(source_handle) => { 1102 match dest_again.$destination_check() { 1103 Space::Full(dst_written) => { 1104 return (EncoderResult::OutputFull, 1105 source_handle.consumed(), 1106 dst_written); 1107 } 1108 Space::Available(mut destination_handle) => { 1109 let (mut c, unread_handle) = source_handle.read_enum(); 1110 let source_again = unread_handle.commit(); 1111 'innermost: loop { 1112 let ascii = match c { 1113 Unicode::NonAscii(non_ascii_again) => { 1114 non_ascii = non_ascii_again; 1115 $handle = destination_handle; 1116 continue 'middle; 1117 } 1118 Unicode::Ascii(a) => a, 1119 }; 1120 // Testing on Haswell says that we should write the 1121 // byte unconditionally instead of trying to unread it 1122 // to make it part of the next SIMD stride. 1123 let dest_again_again = 1124 destination_handle.write_one(ascii); 1125 if $ascii_punctuation && ascii < 60 { 1126 // We've got punctuation 1127 match source_again.check_available() { 1128 Space::Full(src_consumed_again) => { 1129 return (EncoderResult::InputEmpty, 1130 src_consumed_again, 1131 dest_again_again.written()); 1132 } 1133 Space::Available(source_handle_again) => { 1134 match dest_again_again.$destination_check() { 1135 Space::Full(dst_written_again) => { 1136 return (EncoderResult::OutputFull, 1137 source_handle_again.consumed(), 1138 dst_written_again); 1139 } 1140 Space::Available(destination_handle_again) => { 1141 { 1142 let (c_again, _unread_handle_again) = 1143 source_handle_again.read_enum(); 1144 c = c_again; 1145 destination_handle = destination_handle_again; 1146 continue 'innermost; 1147 } 1148 } 1149 } 1150 } 1151 } 1152 } 1153 // We've got markup or ASCII text 1154 continue 'outermost; 1155 } 1156 } 1157 } 1158 } 1159 } 1160 } 1161 } 1162 } 1163 } 1164 }); 1165 } 1166 1167 macro_rules! ascii_compatible_encoder_functions { 1168 ( 1169 $bmp_body:block, 1170 $astral_body:block, 1171 $bmp:ident, 1172 $astral:ident, 1173 $slf:ident, 1174 $source:ident, 1175 $handle:ident, 1176 $copy_ascii:ident, 1177 $destination_check:ident, 1178 $ascii_punctuation:expr 1179 ) => { 1180 ascii_compatible_encoder_function!( 1181 $bmp_body, 1182 $astral_body, 1183 $bmp, 1184 $astral, 1185 $slf, 1186 $source, 1187 $handle, 1188 $copy_ascii, 1189 $destination_check, 1190 encode_from_utf8_raw, 1191 str, 1192 Utf8Source, 1193 $ascii_punctuation 1194 ); 1195 ascii_compatible_encoder_function!( 1196 $bmp_body, 1197 $astral_body, 1198 $bmp, 1199 $astral, 1200 $slf, 1201 $source, 1202 $handle, 1203 $copy_ascii, 1204 $destination_check, 1205 encode_from_utf16_raw, 1206 [u16], 1207 Utf16Source, 1208 $ascii_punctuation 1209 ); 1210 }; 1211 } 1212 1213 macro_rules! ascii_compatible_bmp_encoder_function { 1214 ( 1215 $bmp_body:block, 1216 $bmp:ident, 1217 $slf:ident, 1218 $source:ident, 1219 $handle:ident, 1220 $copy_ascii:ident, 1221 $destination_check:ident, 1222 $name:ident, 1223 $input:ty, 1224 $source_struct:ident, 1225 $ascii_punctuation:expr 1226 ) => { 1227 ascii_compatible_encoder_function!( 1228 $bmp_body, 1229 { 1230 return ( 1231 EncoderResult::Unmappable(astral), 1232 $source.consumed(), 1233 $handle.written(), 1234 ); 1235 }, 1236 $bmp, 1237 astral, 1238 $slf, 1239 $source, 1240 $handle, 1241 $copy_ascii, 1242 $destination_check, 1243 $name, 1244 $input, 1245 $source_struct, 1246 $ascii_punctuation 1247 ); 1248 }; 1249 } 1250 1251 macro_rules! ascii_compatible_bmp_encoder_functions { 1252 ( 1253 $bmp_body:block, 1254 $bmp:ident, 1255 $slf:ident, 1256 $source:ident, 1257 $handle:ident, 1258 $copy_ascii:ident, 1259 $destination_check:ident, 1260 $ascii_punctuation:expr 1261 ) => { 1262 ascii_compatible_encoder_functions!( 1263 $bmp_body, 1264 { 1265 return ( 1266 EncoderResult::Unmappable(astral), 1267 $source.consumed(), 1268 $handle.written(), 1269 ); 1270 }, 1271 $bmp, 1272 astral, 1273 $slf, 1274 $source, 1275 $handle, 1276 $copy_ascii, 1277 $destination_check, 1278 $ascii_punctuation 1279 ); 1280 }; 1281 } 1282 1283 macro_rules! public_decode_function{ 1284 ($(#[$meta:meta])*, 1285 $decode_to_utf:ident, 1286 $decode_to_utf_raw:ident, 1287 $decode_to_utf_checking_end:ident, 1288 $decode_to_utf_after_one_potential_bom_byte:ident, 1289 $decode_to_utf_after_two_potential_bom_bytes:ident, 1290 $decode_to_utf_checking_end_with_offset:ident, 1291 $code_unit:ty) => ( 1292 $(#[$meta])* 1293 pub fn $decode_to_utf(&mut self, 1294 src: &[u8], 1295 dst: &mut [$code_unit], 1296 last: bool) 1297 -> (DecoderResult, usize, usize) { 1298 let mut offset = 0usize; 1299 loop { 1300 match self.life_cycle { 1301 // The common case. (Post-sniffing.) 1302 DecoderLifeCycle::Converting => { 1303 return self.$decode_to_utf_checking_end(src, dst, last); 1304 } 1305 // The rest is all BOM sniffing! 1306 DecoderLifeCycle::AtStart => { 1307 debug_assert_eq!(offset, 0usize); 1308 if src.is_empty() { 1309 return (DecoderResult::InputEmpty, 0, 0); 1310 } 1311 match src[0] { 1312 0xEFu8 => { 1313 self.life_cycle = DecoderLifeCycle::SeenUtf8First; 1314 offset += 1; 1315 continue; 1316 } 1317 0xFEu8 => { 1318 self.life_cycle = DecoderLifeCycle::SeenUtf16BeFirst; 1319 offset += 1; 1320 continue; 1321 } 1322 0xFFu8 => { 1323 self.life_cycle = DecoderLifeCycle::SeenUtf16LeFirst; 1324 offset += 1; 1325 continue; 1326 } 1327 _ => { 1328 self.life_cycle = DecoderLifeCycle::Converting; 1329 continue; 1330 } 1331 } 1332 } 1333 DecoderLifeCycle::AtUtf8Start => { 1334 debug_assert_eq!(offset, 0usize); 1335 if src.is_empty() { 1336 return (DecoderResult::InputEmpty, 0, 0); 1337 } 1338 match src[0] { 1339 0xEFu8 => { 1340 self.life_cycle = DecoderLifeCycle::SeenUtf8First; 1341 offset += 1; 1342 continue; 1343 } 1344 _ => { 1345 self.life_cycle = DecoderLifeCycle::Converting; 1346 continue; 1347 } 1348 } 1349 } 1350 DecoderLifeCycle::AtUtf16BeStart => { 1351 debug_assert_eq!(offset, 0usize); 1352 if src.is_empty() { 1353 return (DecoderResult::InputEmpty, 0, 0); 1354 } 1355 match src[0] { 1356 0xFEu8 => { 1357 self.life_cycle = DecoderLifeCycle::SeenUtf16BeFirst; 1358 offset += 1; 1359 continue; 1360 } 1361 _ => { 1362 self.life_cycle = DecoderLifeCycle::Converting; 1363 continue; 1364 } 1365 } 1366 } 1367 DecoderLifeCycle::AtUtf16LeStart => { 1368 debug_assert_eq!(offset, 0usize); 1369 if src.is_empty() { 1370 return (DecoderResult::InputEmpty, 0, 0); 1371 } 1372 match src[0] { 1373 0xFFu8 => { 1374 self.life_cycle = DecoderLifeCycle::SeenUtf16LeFirst; 1375 offset += 1; 1376 continue; 1377 } 1378 _ => { 1379 self.life_cycle = DecoderLifeCycle::Converting; 1380 continue; 1381 } 1382 } 1383 } 1384 DecoderLifeCycle::SeenUtf8First => { 1385 if offset >= src.len() { 1386 if last { 1387 return self.$decode_to_utf_after_one_potential_bom_byte(src, 1388 dst, 1389 last, 1390 offset, 1391 0xEFu8); 1392 } 1393 return (DecoderResult::InputEmpty, offset, 0); 1394 } 1395 if src[offset] == 0xBBu8 { 1396 self.life_cycle = DecoderLifeCycle::SeenUtf8Second; 1397 offset += 1; 1398 continue; 1399 } 1400 return self.$decode_to_utf_after_one_potential_bom_byte(src, 1401 dst, 1402 last, 1403 offset, 1404 0xEFu8); 1405 } 1406 DecoderLifeCycle::SeenUtf8Second => { 1407 if offset >= src.len() { 1408 if last { 1409 return self.$decode_to_utf_after_two_potential_bom_bytes(src, 1410 dst, 1411 last, 1412 offset); 1413 } 1414 return (DecoderResult::InputEmpty, offset, 0); 1415 } 1416 if src[offset] == 0xBFu8 { 1417 self.life_cycle = DecoderLifeCycle::Converting; 1418 offset += 1; 1419 if self.encoding != UTF_8 { 1420 self.encoding = UTF_8; 1421 self.variant = UTF_8.new_variant_decoder(); 1422 } 1423 return self.$decode_to_utf_checking_end_with_offset(src, 1424 dst, 1425 last, 1426 offset); 1427 } 1428 return self.$decode_to_utf_after_two_potential_bom_bytes(src, 1429 dst, 1430 last, 1431 offset); 1432 } 1433 DecoderLifeCycle::SeenUtf16BeFirst => { 1434 if offset >= src.len() { 1435 if last { 1436 return self.$decode_to_utf_after_one_potential_bom_byte(src, 1437 dst, 1438 last, 1439 offset, 1440 0xFEu8); 1441 } 1442 return (DecoderResult::InputEmpty, offset, 0); 1443 } 1444 if src[offset] == 0xFFu8 { 1445 self.life_cycle = DecoderLifeCycle::Converting; 1446 offset += 1; 1447 if self.encoding != UTF_16BE { 1448 self.encoding = UTF_16BE; 1449 self.variant = UTF_16BE.new_variant_decoder(); 1450 } 1451 return self.$decode_to_utf_checking_end_with_offset(src, 1452 dst, 1453 last, 1454 offset); 1455 } 1456 return self.$decode_to_utf_after_one_potential_bom_byte(src, 1457 dst, 1458 last, 1459 offset, 1460 0xFEu8); 1461 } 1462 DecoderLifeCycle::SeenUtf16LeFirst => { 1463 if offset >= src.len() { 1464 if last { 1465 return self.$decode_to_utf_after_one_potential_bom_byte(src, 1466 dst, 1467 last, 1468 offset, 1469 0xFFu8); 1470 } 1471 return (DecoderResult::InputEmpty, offset, 0); 1472 } 1473 if src[offset] == 0xFEu8 { 1474 self.life_cycle = DecoderLifeCycle::Converting; 1475 offset += 1; 1476 if self.encoding != UTF_16LE { 1477 self.encoding = UTF_16LE; 1478 self.variant = UTF_16LE.new_variant_decoder(); 1479 } 1480 return self.$decode_to_utf_checking_end_with_offset(src, 1481 dst, 1482 last, 1483 offset); 1484 } 1485 return self.$decode_to_utf_after_one_potential_bom_byte(src, 1486 dst, 1487 last, 1488 offset, 1489 0xFFu8); 1490 } 1491 DecoderLifeCycle::ConvertingWithPendingBB => { 1492 debug_assert_eq!(offset, 0usize); 1493 return self.$decode_to_utf_after_one_potential_bom_byte(src, 1494 dst, 1495 last, 1496 0usize, 1497 0xBBu8); 1498 } 1499 DecoderLifeCycle::Finished => panic!("Must not use a decoder that has finished."), 1500 } 1501 } 1502 } 1503 1504 fn $decode_to_utf_after_one_potential_bom_byte(&mut self, 1505 src: &[u8], 1506 dst: &mut [$code_unit], 1507 last: bool, 1508 offset: usize, 1509 first_byte: u8) 1510 -> (DecoderResult, usize, usize) { 1511 self.life_cycle = DecoderLifeCycle::Converting; 1512 if offset == 0usize { 1513 // First byte was seen previously. 1514 let first = [first_byte]; 1515 let mut out_read = 0usize; 1516 let (mut first_result, _, mut first_written) = 1517 self.variant 1518 .$decode_to_utf_raw(&first[..], dst, false); 1519 match first_result { 1520 DecoderResult::InputEmpty => { 1521 let (result, read, written) = 1522 self.$decode_to_utf_checking_end(src, &mut dst[first_written..], last); 1523 first_result = result; 1524 out_read = read; // Overwrite, don't add! 1525 first_written += written; 1526 } 1527 DecoderResult::Malformed(_, _) => { 1528 // Wasn't read from `src`!, leave out_read to 0 1529 } 1530 DecoderResult::OutputFull => { 1531 panic!("Output buffer must have been too small."); 1532 } 1533 } 1534 return (first_result, out_read, first_written); 1535 } 1536 debug_assert_eq!(offset, 1usize); 1537 // The first byte is in `src`, so no need to push it separately. 1538 self.$decode_to_utf_checking_end(src, dst, last) 1539 } 1540 1541 fn $decode_to_utf_after_two_potential_bom_bytes(&mut self, 1542 src: &[u8], 1543 dst: &mut [$code_unit], 1544 last: bool, 1545 offset: usize) 1546 -> (DecoderResult, usize, usize) { 1547 self.life_cycle = DecoderLifeCycle::Converting; 1548 if offset == 0usize { 1549 // The first two bytes are not in the current buffer.. 1550 let ef_bb = [0xEFu8, 0xBBu8]; 1551 let (mut first_result, mut first_read, mut first_written) = 1552 self.variant 1553 .$decode_to_utf_raw(&ef_bb[..], dst, false); 1554 match first_result { 1555 DecoderResult::InputEmpty => { 1556 let (result, read, written) = 1557 self.$decode_to_utf_checking_end(src, &mut dst[first_written..], last); 1558 first_result = result; 1559 first_read = read; // Overwrite, don't add! 1560 first_written += written; 1561 } 1562 DecoderResult::Malformed(_, _) => { 1563 if first_read == 1usize { 1564 // The first byte was malformed. We need to handle 1565 // the second one, which isn't in `src`, later. 1566 self.life_cycle = DecoderLifeCycle::ConvertingWithPendingBB; 1567 } 1568 first_read = 0usize; // Wasn't read from `src`! 1569 } 1570 DecoderResult::OutputFull => { 1571 panic!("Output buffer must have been too small."); 1572 } 1573 } 1574 return (first_result, first_read, first_written); 1575 } 1576 if offset == 1usize { 1577 // The first byte isn't in the current buffer but the second one 1578 // is. 1579 return self.$decode_to_utf_after_one_potential_bom_byte(src, 1580 dst, 1581 last, 1582 0usize, 1583 0xEFu8); 1584 1585 } 1586 debug_assert_eq!(offset, 2usize); 1587 // The first two bytes are in `src`, so no need to push them separately. 1588 self.$decode_to_utf_checking_end(src, dst, last) 1589 } 1590 1591 /// Calls `$decode_to_utf_checking_end` with `offset` bytes omitted from 1592 /// the start of `src` but adjusting the return values to show those bytes 1593 /// as having been consumed. 1594 fn $decode_to_utf_checking_end_with_offset(&mut self, 1595 src: &[u8], 1596 dst: &mut [$code_unit], 1597 last: bool, 1598 offset: usize) 1599 -> (DecoderResult, usize, usize) { 1600 debug_assert_eq!(self.life_cycle, DecoderLifeCycle::Converting); 1601 let (result, read, written) = self.$decode_to_utf_checking_end(&src[offset..], dst, last); 1602 (result, read + offset, written) 1603 } 1604 1605 /// Calls through to the delegate and adjusts life cycle iff `last` is 1606 /// `true` and result is `DecoderResult::InputEmpty`. 1607 fn $decode_to_utf_checking_end(&mut self, 1608 src: &[u8], 1609 dst: &mut [$code_unit], 1610 last: bool) 1611 -> (DecoderResult, usize, usize) { 1612 debug_assert_eq!(self.life_cycle, DecoderLifeCycle::Converting); 1613 let (result, read, written) = self.variant 1614 .$decode_to_utf_raw(src, dst, last); 1615 if last { 1616 if let DecoderResult::InputEmpty = result { 1617 self.life_cycle = DecoderLifeCycle::Finished; 1618 } 1619 } 1620 (result, read, written) 1621 }); 1622 } 1623