1 // Copyright 2013 The Go Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style 3 // license that can be found in the LICENSE file. 4 5 // Package transform provides reader and writer wrappers that transform the 6 // bytes passing through as well as various transformations. Example 7 // transformations provided by other packages include normalization and 8 // conversion between character sets. 9 package transform // import "golang.org/x/text/transform" 10 11 import ( 12 "bytes" 13 "errors" 14 "io" 15 "unicode/utf8" 16 ) 17 18 var ( 19 // ErrShortDst means that the destination buffer was too short to 20 // receive all of the transformed bytes. 21 ErrShortDst = errors.New("transform: short destination buffer") 22 23 // ErrShortSrc means that the source buffer has insufficient data to 24 // complete the transformation. 25 ErrShortSrc = errors.New("transform: short source buffer") 26 27 // ErrEndOfSpan means that the input and output (the transformed input) 28 // are not identical. 29 ErrEndOfSpan = errors.New("transform: input and output are not identical") 30 31 // errInconsistentByteCount means that Transform returned success (nil 32 // error) but also returned nSrc inconsistent with the src argument. 33 errInconsistentByteCount = errors.New("transform: inconsistent byte count returned") 34 35 // errShortInternal means that an internal buffer is not large enough 36 // to make progress and the Transform operation must be aborted. 37 errShortInternal = errors.New("transform: short internal buffer") 38 ) 39 40 // Transformer transforms bytes. 41 type Transformer interface { 42 // Transform writes to dst the transformed bytes read from src, and 43 // returns the number of dst bytes written and src bytes read. The 44 // atEOF argument tells whether src represents the last bytes of the 45 // input. 46 // 47 // Callers should always process the nDst bytes produced and account 48 // for the nSrc bytes consumed before considering the error err. 49 // 50 // A nil error means that all of the transformed bytes (whether freshly 51 // transformed from src or left over from previous Transform calls) 52 // were written to dst. A nil error can be returned regardless of 53 // whether atEOF is true. If err is nil then nSrc must equal len(src); 54 // the converse is not necessarily true. 55 // 56 // ErrShortDst means that dst was too short to receive all of the 57 // transformed bytes. ErrShortSrc means that src had insufficient data 58 // to complete the transformation. If both conditions apply, then 59 // either error may be returned. Other than the error conditions listed 60 // here, implementations are free to report other errors that arise. 61 Transform(dst, src []byte, atEOF bool) (nDst, nSrc int, err error) 62 63 // Reset resets the state and allows a Transformer to be reused. 64 Reset() 65 } 66 67 // SpanningTransformer extends the Transformer interface with a Span method 68 // that determines how much of the input already conforms to the Transformer. 69 type SpanningTransformer interface { 70 Transformer 71 72 // Span returns a position in src such that transforming src[:n] results in 73 // identical output src[:n] for these bytes. It does not necessarily return 74 // the largest such n. The atEOF argument tells whether src represents the 75 // last bytes of the input. 76 // 77 // Callers should always account for the n bytes consumed before 78 // considering the error err. 79 // 80 // A nil error means that all input bytes are known to be identical to the 81 // output produced by the Transformer. A nil error can be returned 82 // regardless of whether atEOF is true. If err is nil, then n must 83 // equal len(src); the converse is not necessarily true. 84 // 85 // ErrEndOfSpan means that the Transformer output may differ from the 86 // input after n bytes. Note that n may be len(src), meaning that the output 87 // would contain additional bytes after otherwise identical output. 88 // ErrShortSrc means that src had insufficient data to determine whether the 89 // remaining bytes would change. Other than the error conditions listed 90 // here, implementations are free to report other errors that arise. 91 // 92 // Calling Span can modify the Transformer state as a side effect. In 93 // effect, it does the transformation just as calling Transform would, only 94 // without copying to a destination buffer and only up to a point it can 95 // determine the input and output bytes are the same. This is obviously more 96 // limited than calling Transform, but can be more efficient in terms of 97 // copying and allocating buffers. Calls to Span and Transform may be 98 // interleaved. 99 Span(src []byte, atEOF bool) (n int, err error) 100 } 101 102 // NopResetter can be embedded by implementations of Transformer to add a nop 103 // Reset method. 104 type NopResetter struct{} 105 106 // Reset implements the Reset method of the Transformer interface. 107 func (NopResetter) Reset() {} 108 109 // Reader wraps another io.Reader by transforming the bytes read. 110 type Reader struct { 111 r io.Reader 112 t Transformer 113 err error 114 115 // dst[dst0:dst1] contains bytes that have been transformed by t but 116 // not yet copied out via Read. 117 dst []byte 118 dst0, dst1 int 119 120 // src[src0:src1] contains bytes that have been read from r but not 121 // yet transformed through t. 122 src []byte 123 src0, src1 int 124 125 // transformComplete is whether the transformation is complete, 126 // regardless of whether or not it was successful. 127 transformComplete bool 128 } 129 130 const defaultBufSize = 4096 131 132 // NewReader returns a new Reader that wraps r by transforming the bytes read 133 // via t. It calls Reset on t. 134 func NewReader(r io.Reader, t Transformer) *Reader { 135 t.Reset() 136 return &Reader{ 137 r: r, 138 t: t, 139 dst: make([]byte, defaultBufSize), 140 src: make([]byte, defaultBufSize), 141 } 142 } 143 144 // Read implements the io.Reader interface. 145 func (r *Reader) Read(p []byte) (int, error) { 146 n, err := 0, error(nil) 147 for { 148 // Copy out any transformed bytes and return the final error if we are done. 149 if r.dst0 != r.dst1 { 150 n = copy(p, r.dst[r.dst0:r.dst1]) 151 r.dst0 += n 152 if r.dst0 == r.dst1 && r.transformComplete { 153 return n, r.err 154 } 155 return n, nil 156 } else if r.transformComplete { 157 return 0, r.err 158 } 159 160 // Try to transform some source bytes, or to flush the transformer if we 161 // are out of source bytes. We do this even if r.r.Read returned an error. 162 // As the io.Reader documentation says, "process the n > 0 bytes returned 163 // before considering the error". 164 if r.src0 != r.src1 || r.err != nil { 165 r.dst0 = 0 166 r.dst1, n, err = r.t.Transform(r.dst, r.src[r.src0:r.src1], r.err == io.EOF) 167 r.src0 += n 168 169 switch { 170 case err == nil: 171 if r.src0 != r.src1 { 172 r.err = errInconsistentByteCount 173 } 174 // The Transform call was successful; we are complete if we 175 // cannot read more bytes into src. 176 r.transformComplete = r.err != nil 177 continue 178 case err == ErrShortDst && (r.dst1 != 0 || n != 0): 179 // Make room in dst by copying out, and try again. 180 continue 181 case err == ErrShortSrc && r.src1-r.src0 != len(r.src) && r.err == nil: 182 // Read more bytes into src via the code below, and try again. 183 default: 184 r.transformComplete = true 185 // The reader error (r.err) takes precedence over the 186 // transformer error (err) unless r.err is nil or io.EOF. 187 if r.err == nil || r.err == io.EOF { 188 r.err = err 189 } 190 continue 191 } 192 } 193 194 // Move any untransformed source bytes to the start of the buffer 195 // and read more bytes. 196 if r.src0 != 0 { 197 r.src0, r.src1 = 0, copy(r.src, r.src[r.src0:r.src1]) 198 } 199 n, r.err = r.r.Read(r.src[r.src1:]) 200 r.src1 += n 201 } 202 } 203 204 // TODO: implement ReadByte (and ReadRune??). 205 206 // Writer wraps another io.Writer by transforming the bytes read. 207 // The user needs to call Close to flush unwritten bytes that may 208 // be buffered. 209 type Writer struct { 210 w io.Writer 211 t Transformer 212 dst []byte 213 214 // src[:n] contains bytes that have not yet passed through t. 215 src []byte 216 n int 217 } 218 219 // NewWriter returns a new Writer that wraps w by transforming the bytes written 220 // via t. It calls Reset on t. 221 func NewWriter(w io.Writer, t Transformer) *Writer { 222 t.Reset() 223 return &Writer{ 224 w: w, 225 t: t, 226 dst: make([]byte, defaultBufSize), 227 src: make([]byte, defaultBufSize), 228 } 229 } 230 231 // Write implements the io.Writer interface. If there are not enough 232 // bytes available to complete a Transform, the bytes will be buffered 233 // for the next write. Call Close to convert the remaining bytes. 234 func (w *Writer) Write(data []byte) (n int, err error) { 235 src := data 236 if w.n > 0 { 237 // Append bytes from data to the last remainder. 238 // TODO: limit the amount copied on first try. 239 n = copy(w.src[w.n:], data) 240 w.n += n 241 src = w.src[:w.n] 242 } 243 for { 244 nDst, nSrc, err := w.t.Transform(w.dst, src, false) 245 if _, werr := w.w.Write(w.dst[:nDst]); werr != nil { 246 return n, werr 247 } 248 src = src[nSrc:] 249 if w.n == 0 { 250 n += nSrc 251 } else if len(src) <= n { 252 // Enough bytes from w.src have been consumed. We make src point 253 // to data instead to reduce the copying. 254 w.n = 0 255 n -= len(src) 256 src = data[n:] 257 if n < len(data) && (err == nil || err == ErrShortSrc) { 258 continue 259 } 260 } 261 switch err { 262 case ErrShortDst: 263 // This error is okay as long as we are making progress. 264 if nDst > 0 || nSrc > 0 { 265 continue 266 } 267 case ErrShortSrc: 268 if len(src) < len(w.src) { 269 m := copy(w.src, src) 270 // If w.n > 0, bytes from data were already copied to w.src and n 271 // was already set to the number of bytes consumed. 272 if w.n == 0 { 273 n += m 274 } 275 w.n = m 276 err = nil 277 } else if nDst > 0 || nSrc > 0 { 278 // Not enough buffer to store the remainder. Keep processing as 279 // long as there is progress. Without this case, transforms that 280 // require a lookahead larger than the buffer may result in an 281 // error. This is not something one may expect to be common in 282 // practice, but it may occur when buffers are set to small 283 // sizes during testing. 284 continue 285 } 286 case nil: 287 if w.n > 0 { 288 err = errInconsistentByteCount 289 } 290 } 291 return n, err 292 } 293 } 294 295 // Close implements the io.Closer interface. 296 func (w *Writer) Close() error { 297 src := w.src[:w.n] 298 for { 299 nDst, nSrc, err := w.t.Transform(w.dst, src, true) 300 if _, werr := w.w.Write(w.dst[:nDst]); werr != nil { 301 return werr 302 } 303 if err != ErrShortDst { 304 return err 305 } 306 src = src[nSrc:] 307 } 308 } 309 310 type nop struct{ NopResetter } 311 312 func (nop) Transform(dst, src []byte, atEOF bool) (nDst, nSrc int, err error) { 313 n := copy(dst, src) 314 if n < len(src) { 315 err = ErrShortDst 316 } 317 return n, n, err 318 } 319 320 func (nop) Span(src []byte, atEOF bool) (n int, err error) { 321 return len(src), nil 322 } 323 324 type discard struct{ NopResetter } 325 326 func (discard) Transform(dst, src []byte, atEOF bool) (nDst, nSrc int, err error) { 327 return 0, len(src), nil 328 } 329 330 var ( 331 // Discard is a Transformer for which all Transform calls succeed 332 // by consuming all bytes and writing nothing. 333 Discard Transformer = discard{} 334 335 // Nop is a SpanningTransformer that copies src to dst. 336 Nop SpanningTransformer = nop{} 337 ) 338 339 // chain is a sequence of links. A chain with N Transformers has N+1 links and 340 // N+1 buffers. Of those N+1 buffers, the first and last are the src and dst 341 // buffers given to chain.Transform and the middle N-1 buffers are intermediate 342 // buffers owned by the chain. The i'th link transforms bytes from the i'th 343 // buffer chain.link[i].b at read offset chain.link[i].p to the i+1'th buffer 344 // chain.link[i+1].b at write offset chain.link[i+1].n, for i in [0, N). 345 type chain struct { 346 link []link 347 err error 348 // errStart is the index at which the error occurred plus 1. Processing 349 // errStart at this level at the next call to Transform. As long as 350 // errStart > 0, chain will not consume any more source bytes. 351 errStart int 352 } 353 354 func (c *chain) fatalError(errIndex int, err error) { 355 if i := errIndex + 1; i > c.errStart { 356 c.errStart = i 357 c.err = err 358 } 359 } 360 361 type link struct { 362 t Transformer 363 // b[p:n] holds the bytes to be transformed by t. 364 b []byte 365 p int 366 n int 367 } 368 369 func (l *link) src() []byte { 370 return l.b[l.p:l.n] 371 } 372 373 func (l *link) dst() []byte { 374 return l.b[l.n:] 375 } 376 377 // Chain returns a Transformer that applies t in sequence. 378 func Chain(t ...Transformer) Transformer { 379 if len(t) == 0 { 380 return nop{} 381 } 382 c := &chain{link: make([]link, len(t)+1)} 383 for i, tt := range t { 384 c.link[i].t = tt 385 } 386 // Allocate intermediate buffers. 387 b := make([][defaultBufSize]byte, len(t)-1) 388 for i := range b { 389 c.link[i+1].b = b[i][:] 390 } 391 return c 392 } 393 394 // Reset resets the state of Chain. It calls Reset on all the Transformers. 395 func (c *chain) Reset() { 396 for i, l := range c.link { 397 if l.t != nil { 398 l.t.Reset() 399 } 400 c.link[i].p, c.link[i].n = 0, 0 401 } 402 } 403 404 // TODO: make chain use Span (is going to be fun to implement!) 405 406 // Transform applies the transformers of c in sequence. 407 func (c *chain) Transform(dst, src []byte, atEOF bool) (nDst, nSrc int, err error) { 408 // Set up src and dst in the chain. 409 srcL := &c.link[0] 410 dstL := &c.link[len(c.link)-1] 411 srcL.b, srcL.p, srcL.n = src, 0, len(src) 412 dstL.b, dstL.n = dst, 0 413 var lastFull, needProgress bool // for detecting progress 414 415 // i is the index of the next Transformer to apply, for i in [low, high]. 416 // low is the lowest index for which c.link[low] may still produce bytes. 417 // high is the highest index for which c.link[high] has a Transformer. 418 // The error returned by Transform determines whether to increase or 419 // decrease i. We try to completely fill a buffer before converting it. 420 for low, i, high := c.errStart, c.errStart, len(c.link)-2; low <= i && i <= high; { 421 in, out := &c.link[i], &c.link[i+1] 422 nDst, nSrc, err0 := in.t.Transform(out.dst(), in.src(), atEOF && low == i) 423 out.n += nDst 424 in.p += nSrc 425 if i > 0 && in.p == in.n { 426 in.p, in.n = 0, 0 427 } 428 needProgress, lastFull = lastFull, false 429 switch err0 { 430 case ErrShortDst: 431 // Process the destination buffer next. Return if we are already 432 // at the high index. 433 if i == high { 434 return dstL.n, srcL.p, ErrShortDst 435 } 436 if out.n != 0 { 437 i++ 438 // If the Transformer at the next index is not able to process any 439 // source bytes there is nothing that can be done to make progress 440 // and the bytes will remain unprocessed. lastFull is used to 441 // detect this and break out of the loop with a fatal error. 442 lastFull = true 443 continue 444 } 445 // The destination buffer was too small, but is completely empty. 446 // Return a fatal error as this transformation can never complete. 447 c.fatalError(i, errShortInternal) 448 case ErrShortSrc: 449 if i == 0 { 450 // Save ErrShortSrc in err. All other errors take precedence. 451 err = ErrShortSrc 452 break 453 } 454 // Source bytes were depleted before filling up the destination buffer. 455 // Verify we made some progress, move the remaining bytes to the errStart 456 // and try to get more source bytes. 457 if needProgress && nSrc == 0 || in.n-in.p == len(in.b) { 458 // There were not enough source bytes to proceed while the source 459 // buffer cannot hold any more bytes. Return a fatal error as this 460 // transformation can never complete. 461 c.fatalError(i, errShortInternal) 462 break 463 } 464 // in.b is an internal buffer and we can make progress. 465 in.p, in.n = 0, copy(in.b, in.src()) 466 fallthrough 467 case nil: 468 // if i == low, we have depleted the bytes at index i or any lower levels. 469 // In that case we increase low and i. In all other cases we decrease i to 470 // fetch more bytes before proceeding to the next index. 471 if i > low { 472 i-- 473 continue 474 } 475 default: 476 c.fatalError(i, err0) 477 } 478 // Exhausted level low or fatal error: increase low and continue 479 // to process the bytes accepted so far. 480 i++ 481 low = i 482 } 483 484 // If c.errStart > 0, this means we found a fatal error. We will clear 485 // all upstream buffers. At this point, no more progress can be made 486 // downstream, as Transform would have bailed while handling ErrShortDst. 487 if c.errStart > 0 { 488 for i := 1; i < c.errStart; i++ { 489 c.link[i].p, c.link[i].n = 0, 0 490 } 491 err, c.errStart, c.err = c.err, 0, nil 492 } 493 return dstL.n, srcL.p, err 494 } 495 496 // Deprecated: Use runes.Remove instead. 497 func RemoveFunc(f func(r rune) bool) Transformer { 498 return removeF(f) 499 } 500 501 type removeF func(r rune) bool 502 503 func (removeF) Reset() {} 504 505 // Transform implements the Transformer interface. 506 func (t removeF) Transform(dst, src []byte, atEOF bool) (nDst, nSrc int, err error) { 507 for r, sz := rune(0), 0; len(src) > 0; src = src[sz:] { 508 509 if r = rune(src[0]); r < utf8.RuneSelf { 510 sz = 1 511 } else { 512 r, sz = utf8.DecodeRune(src) 513 514 if sz == 1 { 515 // Invalid rune. 516 if !atEOF && !utf8.FullRune(src) { 517 err = ErrShortSrc 518 break 519 } 520 // We replace illegal bytes with RuneError. Not doing so might 521 // otherwise turn a sequence of invalid UTF-8 into valid UTF-8. 522 // The resulting byte sequence may subsequently contain runes 523 // for which t(r) is true that were passed unnoticed. 524 if !t(r) { 525 if nDst+3 > len(dst) { 526 err = ErrShortDst 527 break 528 } 529 nDst += copy(dst[nDst:], "\uFFFD") 530 } 531 nSrc++ 532 continue 533 } 534 } 535 536 if !t(r) { 537 if nDst+sz > len(dst) { 538 err = ErrShortDst 539 break 540 } 541 nDst += copy(dst[nDst:], src[:sz]) 542 } 543 nSrc += sz 544 } 545 return 546 } 547 548 // grow returns a new []byte that is longer than b, and copies the first n bytes 549 // of b to the start of the new slice. 550 func grow(b []byte, n int) []byte { 551 m := len(b) 552 if m <= 32 { 553 m = 64 554 } else if m <= 256 { 555 m *= 2 556 } else { 557 m += m >> 1 558 } 559 buf := make([]byte, m) 560 copy(buf, b[:n]) 561 return buf 562 } 563 564 const initialBufSize = 128 565 566 // String returns a string with the result of converting s[:n] using t, where 567 // n <= len(s). If err == nil, n will be len(s). It calls Reset on t. 568 func String(t Transformer, s string) (result string, n int, err error) { 569 t.Reset() 570 if s == "" { 571 // Fast path for the common case for empty input. Results in about a 572 // 86% reduction of running time for BenchmarkStringLowerEmpty. 573 if _, _, err := t.Transform(nil, nil, true); err == nil { 574 return "", 0, nil 575 } 576 } 577 578 // Allocate only once. Note that both dst and src escape when passed to 579 // Transform. 580 buf := [2 * initialBufSize]byte{} 581 dst := buf[:initialBufSize:initialBufSize] 582 src := buf[initialBufSize : 2*initialBufSize] 583 584 // The input string s is transformed in multiple chunks (starting with a 585 // chunk size of initialBufSize). nDst and nSrc are per-chunk (or 586 // per-Transform-call) indexes, pDst and pSrc are overall indexes. 587 nDst, nSrc := 0, 0 588 pDst, pSrc := 0, 0 589 590 // pPrefix is the length of a common prefix: the first pPrefix bytes of the 591 // result will equal the first pPrefix bytes of s. It is not guaranteed to 592 // be the largest such value, but if pPrefix, len(result) and len(s) are 593 // all equal after the final transform (i.e. calling Transform with atEOF 594 // being true returned nil error) then we don't need to allocate a new 595 // result string. 596 pPrefix := 0 597 for { 598 // Invariant: pDst == pPrefix && pSrc == pPrefix. 599 600 n := copy(src, s[pSrc:]) 601 nDst, nSrc, err = t.Transform(dst, src[:n], pSrc+n == len(s)) 602 pDst += nDst 603 pSrc += nSrc 604 605 // TODO: let transformers implement an optional Spanner interface, akin 606 // to norm's QuickSpan. This would even allow us to avoid any allocation. 607 if !bytes.Equal(dst[:nDst], src[:nSrc]) { 608 break 609 } 610 pPrefix = pSrc 611 if err == ErrShortDst { 612 // A buffer can only be short if a transformer modifies its input. 613 break 614 } else if err == ErrShortSrc { 615 if nSrc == 0 { 616 // No progress was made. 617 break 618 } 619 // Equal so far and !atEOF, so continue checking. 620 } else if err != nil || pPrefix == len(s) { 621 return string(s[:pPrefix]), pPrefix, err 622 } 623 } 624 // Post-condition: pDst == pPrefix + nDst && pSrc == pPrefix + nSrc. 625 626 // We have transformed the first pSrc bytes of the input s to become pDst 627 // transformed bytes. Those transformed bytes are discontiguous: the first 628 // pPrefix of them equal s[:pPrefix] and the last nDst of them equal 629 // dst[:nDst]. We copy them around, into a new dst buffer if necessary, so 630 // that they become one contiguous slice: dst[:pDst]. 631 if pPrefix != 0 { 632 newDst := dst 633 if pDst > len(newDst) { 634 newDst = make([]byte, len(s)+nDst-nSrc) 635 } 636 copy(newDst[pPrefix:pDst], dst[:nDst]) 637 copy(newDst[:pPrefix], s[:pPrefix]) 638 dst = newDst 639 } 640 641 // Prevent duplicate Transform calls with atEOF being true at the end of 642 // the input. Also return if we have an unrecoverable error. 643 if (err == nil && pSrc == len(s)) || 644 (err != nil && err != ErrShortDst && err != ErrShortSrc) { 645 return string(dst[:pDst]), pSrc, err 646 } 647 648 // Transform the remaining input, growing dst and src buffers as necessary. 649 for { 650 n := copy(src, s[pSrc:]) 651 atEOF := pSrc+n == len(s) 652 nDst, nSrc, err := t.Transform(dst[pDst:], src[:n], atEOF) 653 pDst += nDst 654 pSrc += nSrc 655 656 // If we got ErrShortDst or ErrShortSrc, do not grow as long as we can 657 // make progress. This may avoid excessive allocations. 658 if err == ErrShortDst { 659 if nDst == 0 { 660 dst = grow(dst, pDst) 661 } 662 } else if err == ErrShortSrc { 663 if atEOF { 664 return string(dst[:pDst]), pSrc, err 665 } 666 if nSrc == 0 { 667 src = grow(src, 0) 668 } 669 } else if err != nil || pSrc == len(s) { 670 return string(dst[:pDst]), pSrc, err 671 } 672 } 673 } 674 675 // Bytes returns a new byte slice with the result of converting b[:n] using t, 676 // where n <= len(b). If err == nil, n will be len(b). It calls Reset on t. 677 func Bytes(t Transformer, b []byte) (result []byte, n int, err error) { 678 return doAppend(t, 0, make([]byte, len(b)), b) 679 } 680 681 // Append appends the result of converting src[:n] using t to dst, where 682 // n <= len(src), If err == nil, n will be len(src). It calls Reset on t. 683 func Append(t Transformer, dst, src []byte) (result []byte, n int, err error) { 684 if len(dst) == cap(dst) { 685 n := len(src) + len(dst) // It is okay for this to be 0. 686 b := make([]byte, n) 687 dst = b[:copy(b, dst)] 688 } 689 return doAppend(t, len(dst), dst[:cap(dst)], src) 690 } 691 692 func doAppend(t Transformer, pDst int, dst, src []byte) (result []byte, n int, err error) { 693 t.Reset() 694 pSrc := 0 695 for { 696 nDst, nSrc, err := t.Transform(dst[pDst:], src[pSrc:], true) 697 pDst += nDst 698 pSrc += nSrc 699 if err != ErrShortDst { 700 return dst[:pDst], pSrc, err 701 } 702 703 // Grow the destination buffer, but do not grow as long as we can make 704 // progress. This may avoid excessive allocations. 705 if nDst == 0 { 706 dst = grow(dst, pDst) 707 } 708 } 709 } 710