github.com/razvanm/vanadium-go-1.3@v0.0.0-20160721203343-4a65068e5915/doc/go1.html (about) 1 <!--{ 2 "Title": "Go 1 Release Notes", 3 "Path": "/doc/go1", 4 "Template": true 5 }--> 6 7 <h2 id="introduction">Introduction to Go 1</h2> 8 9 <p> 10 Go version 1, Go 1 for short, defines a language and a set of core libraries 11 that provide a stable foundation for creating reliable products, projects, and 12 publications. 13 </p> 14 15 <p> 16 The driving motivation for Go 1 is stability for its users. People should be able to 17 write Go programs and expect that they will continue to compile and run without 18 change, on a time scale of years, including in production environments such as 19 Google App Engine. Similarly, people should be able to write books about Go, be 20 able to say which version of Go the book is describing, and have that version 21 number still be meaningful much later. 22 </p> 23 24 <p> 25 Code that compiles in Go 1 should, with few exceptions, continue to compile and 26 run throughout the lifetime of that version, even as we issue updates and bug 27 fixes such as Go version 1.1, 1.2, and so on. Other than critical fixes, changes 28 made to the language and library for subsequent releases of Go 1 may 29 add functionality but will not break existing Go 1 programs. 30 <a href="go1compat.html">The Go 1 compatibility document</a> 31 explains the compatibility guidelines in more detail. 32 </p> 33 34 <p> 35 Go 1 is a representation of Go as it used today, not a wholesale rethinking of 36 the language. We avoided designing new features and instead focused on cleaning 37 up problems and inconsistencies and improving portability. There are a number 38 changes to the Go language and packages that we had considered for some time and 39 prototyped but not released primarily because they are significant and 40 backwards-incompatible. Go 1 was an opportunity to get them out, which is 41 helpful for the long term, but also means that Go 1 introduces incompatibilities 42 for old programs. Fortunately, the <code>go</code> <code>fix</code> tool can 43 automate much of the work needed to bring programs up to the Go 1 standard. 44 </p> 45 46 <p> 47 This document outlines the major changes in Go 1 that will affect programmers 48 updating existing code; its reference point is the prior release, r60 (tagged as 49 r60.3). It also explains how to update code from r60 to run under Go 1. 50 </p> 51 52 <h2 id="language">Changes to the language</h2> 53 54 <h3 id="append">Append</h3> 55 56 <p> 57 The <code>append</code> predeclared variadic function makes it easy to grow a slice 58 by adding elements to the end. 59 A common use is to add bytes to the end of a byte slice when generating output. 60 However, <code>append</code> did not provide a way to append a string to a <code>[]byte</code>, 61 which is another common case. 62 </p> 63 64 {{code "/doc/progs/go1.go" `/greeting := ..byte/` `/append.*hello/`}} 65 66 <p> 67 By analogy with the similar property of <code>copy</code>, Go 1 68 permits a string to be appended (byte-wise) directly to a byte 69 slice, reducing the friction between strings and byte slices. 70 The conversion is no longer necessary: 71 </p> 72 73 {{code "/doc/progs/go1.go" `/append.*world/`}} 74 75 <p> 76 <em>Updating</em>: 77 This is a new feature, so existing code needs no changes. 78 </p> 79 80 <h3 id="close">Close</h3> 81 82 <p> 83 The <code>close</code> predeclared function provides a mechanism 84 for a sender to signal that no more values will be sent. 85 It is important to the implementation of <code>for</code> <code>range</code> 86 loops over channels and is helpful in other situations. 87 Partly by design and partly because of race conditions that can occur otherwise, 88 it is intended for use only by the goroutine sending on the channel, 89 not by the goroutine receiving data. 90 However, before Go 1 there was no compile-time checking that <code>close</code> 91 was being used correctly. 92 </p> 93 94 <p> 95 To close this gap, at least in part, Go 1 disallows <code>close</code> on receive-only channels. 96 Attempting to close such a channel is a compile-time error. 97 </p> 98 99 <pre> 100 var c chan int 101 var csend chan<- int = c 102 var crecv <-chan int = c 103 close(c) // legal 104 close(csend) // legal 105 close(crecv) // illegal 106 </pre> 107 108 <p> 109 <em>Updating</em>: 110 Existing code that attempts to close a receive-only channel was 111 erroneous even before Go 1 and should be fixed. The compiler will 112 now reject such code. 113 </p> 114 115 <h3 id="literals">Composite literals</h3> 116 117 <p> 118 In Go 1, a composite literal of array, slice, or map type can elide the 119 type specification for the elements' initializers if they are of pointer type. 120 All four of the initializations in this example are legal; the last one was illegal before Go 1. 121 </p> 122 123 {{code "/doc/progs/go1.go" `/type Date struct/` `/STOP/`}} 124 125 <p> 126 <em>Updating</em>: 127 This change has no effect on existing code, but the command 128 <code>gofmt</code> <code>-s</code> applied to existing source 129 will, among other things, elide explicit element types wherever permitted. 130 </p> 131 132 133 <h3 id="init">Goroutines during init</h3> 134 135 <p> 136 The old language defined that <code>go</code> statements executed during initialization created goroutines but that they did not begin to run until initialization of the entire program was complete. 137 This introduced clumsiness in many places and, in effect, limited the utility 138 of the <code>init</code> construct: 139 if it was possible for another package to use the library during initialization, the library 140 was forced to avoid goroutines. 141 This design was done for reasons of simplicity and safety but, 142 as our confidence in the language grew, it seemed unnecessary. 143 Running goroutines during initialization is no more complex or unsafe than running them during normal execution. 144 </p> 145 146 <p> 147 In Go 1, code that uses goroutines can be called from 148 <code>init</code> routines and global initialization expressions 149 without introducing a deadlock. 150 </p> 151 152 {{code "/doc/progs/go1.go" `/PackageGlobal/` `/^}/`}} 153 154 <p> 155 <em>Updating</em>: 156 This is a new feature, so existing code needs no changes, 157 although it's possible that code that depends on goroutines not starting before <code>main</code> will break. 158 There was no such code in the standard repository. 159 </p> 160 161 <h3 id="rune">The rune type</h3> 162 163 <p> 164 The language spec allows the <code>int</code> type to be 32 or 64 bits wide, but current implementations set <code>int</code> to 32 bits even on 64-bit platforms. 165 It would be preferable to have <code>int</code> be 64 bits on 64-bit platforms. 166 (There are important consequences for indexing large slices.) 167 However, this change would waste space when processing Unicode characters with 168 the old language because the <code>int</code> type was also used to hold Unicode code points: each code point would waste an extra 32 bits of storage if <code>int</code> grew from 32 bits to 64. 169 </p> 170 171 <p> 172 To make changing to 64-bit <code>int</code> feasible, 173 Go 1 introduces a new basic type, <code>rune</code>, to represent 174 individual Unicode code points. 175 It is an alias for <code>int32</code>, analogous to <code>byte</code> 176 as an alias for <code>uint8</code>. 177 </p> 178 179 <p> 180 Character literals such as <code>'a'</code>, <code>'語'</code>, and <code>'\u0345'</code> 181 now have default type <code>rune</code>, 182 analogous to <code>1.0</code> having default type <code>float64</code>. 183 A variable initialized to a character constant will therefore 184 have type <code>rune</code> unless otherwise specified. 185 </p> 186 187 <p> 188 Libraries have been updated to use <code>rune</code> rather than <code>int</code> 189 when appropriate. For instance, the functions <code>unicode.ToLower</code> and 190 relatives now take and return a <code>rune</code>. 191 </p> 192 193 {{code "/doc/progs/go1.go" `/STARTRUNE/` `/ENDRUNE/`}} 194 195 <p> 196 <em>Updating</em>: 197 Most source code will be unaffected by this because the type inference from 198 <code>:=</code> initializers introduces the new type silently, and it propagates 199 from there. 200 Some code may get type errors that a trivial conversion will resolve. 201 </p> 202 203 <h3 id="error">The error type</h3> 204 205 <p> 206 Go 1 introduces a new built-in type, <code>error</code>, which has the following definition: 207 </p> 208 209 <pre> 210 type error interface { 211 Error() string 212 } 213 </pre> 214 215 <p> 216 Since the consequences of this type are all in the package library, 217 it is discussed <a href="#errors">below</a>. 218 </p> 219 220 <h3 id="delete">Deleting from maps</h3> 221 222 <p> 223 In the old language, to delete the entry with key <code>k</code> from map <code>m</code>, one wrote the statement, 224 </p> 225 226 <pre> 227 m[k] = value, false 228 </pre> 229 230 <p> 231 This syntax was a peculiar special case, the only two-to-one assignment. 232 It required passing a value (usually ignored) that is evaluated but discarded, 233 plus a boolean that was nearly always the constant <code>false</code>. 234 It did the job but was odd and a point of contention. 235 </p> 236 237 <p> 238 In Go 1, that syntax has gone; instead there is a new built-in 239 function, <code>delete</code>. The call 240 </p> 241 242 {{code "/doc/progs/go1.go" `/delete\(m, k\)/`}} 243 244 <p> 245 will delete the map entry retrieved by the expression <code>m[k]</code>. 246 There is no return value. Deleting a non-existent entry is a no-op. 247 </p> 248 249 <p> 250 <em>Updating</em>: 251 Running <code>go</code> <code>fix</code> will convert expressions of the form <code>m[k] = value, 252 false</code> into <code>delete(m, k)</code> when it is clear that 253 the ignored value can be safely discarded from the program and 254 <code>false</code> refers to the predefined boolean constant. 255 The fix tool 256 will flag other uses of the syntax for inspection by the programmer. 257 </p> 258 259 <h3 id="iteration">Iterating in maps</h3> 260 261 <p> 262 The old language specification did not define the order of iteration for maps, 263 and in practice it differed across hardware platforms. 264 This caused tests that iterated over maps to be fragile and non-portable, with the 265 unpleasant property that a test might always pass on one machine but break on another. 266 </p> 267 268 <p> 269 In Go 1, the order in which elements are visited when iterating 270 over a map using a <code>for</code> <code>range</code> statement 271 is defined to be unpredictable, even if the same loop is run multiple 272 times with the same map. 273 Code should not assume that the elements are visited in any particular order. 274 </p> 275 276 <p> 277 This change means that code that depends on iteration order is very likely to break early and be fixed long before it becomes a problem. 278 Just as important, it allows the map implementation to ensure better map balancing even when programs are using range loops to select an element from a map. 279 </p> 280 281 {{code "/doc/progs/go1.go" `/Sunday/` `/^ }/`}} 282 283 <p> 284 <em>Updating</em>: 285 This is one change where tools cannot help. Most existing code 286 will be unaffected, but some programs may break or misbehave; we 287 recommend manual checking of all range statements over maps to 288 verify they do not depend on iteration order. There were a few such 289 examples in the standard repository; they have been fixed. 290 Note that it was already incorrect to depend on the iteration order, which 291 was unspecified. This change codifies the unpredictability. 292 </p> 293 294 <h3 id="multiple_assignment">Multiple assignment</h3> 295 296 <p> 297 The language specification has long guaranteed that in assignments 298 the right-hand-side expressions are all evaluated before any left-hand-side expressions are assigned. 299 To guarantee predictable behavior, 300 Go 1 refines the specification further. 301 </p> 302 303 <p> 304 If the left-hand side of the assignment 305 statement contains expressions that require evaluation, such as 306 function calls or array indexing operations, these will all be done 307 using the usual left-to-right rule before any variables are assigned 308 their value. Once everything is evaluated, the actual assignments 309 proceed in left-to-right order. 310 </p> 311 312 <p> 313 These examples illustrate the behavior. 314 </p> 315 316 {{code "/doc/progs/go1.go" `/sa :=/` `/then sc.0. = 2/`}} 317 318 <p> 319 <em>Updating</em>: 320 This is one change where tools cannot help, but breakage is unlikely. 321 No code in the standard repository was broken by this change, and code 322 that depended on the previous unspecified behavior was already incorrect. 323 </p> 324 325 <h3 id="shadowing">Returns and shadowed variables</h3> 326 327 <p> 328 A common mistake is to use <code>return</code> (without arguments) after an assignment to a variable that has the same name as a result variable but is not the same variable. 329 This situation is called <em>shadowing</em>: the result variable has been shadowed by another variable with the same name declared in an inner scope. 330 </p> 331 332 <p> 333 In functions with named return values, 334 the Go 1 compilers disallow return statements without arguments if any of the named return values is shadowed at the point of the return statement. 335 (It isn't part of the specification, because this is one area we are still exploring; 336 the situation is analogous to the compilers rejecting functions that do not end with an explicit return statement.) 337 </p> 338 339 <p> 340 This function implicitly returns a shadowed return value and will be rejected by the compiler: 341 </p> 342 343 <pre> 344 func Bug() (i, j, k int) { 345 for i = 0; i < 5; i++ { 346 for j := 0; j < 5; j++ { // Redeclares j. 347 k += i*j 348 if k > 100 { 349 return // Rejected: j is shadowed here. 350 } 351 } 352 } 353 return // OK: j is not shadowed here. 354 } 355 </pre> 356 357 <p> 358 <em>Updating</em>: 359 Code that shadows return values in this way will be rejected by the compiler and will need to be fixed by hand. 360 The few cases that arose in the standard repository were mostly bugs. 361 </p> 362 363 <h3 id="unexported">Copying structs with unexported fields</h3> 364 365 <p> 366 The old language did not allow a package to make a copy of a struct value containing unexported fields belonging to a different package. 367 There was, however, a required exception for a method receiver; 368 also, the implementations of <code>copy</code> and <code>append</code> have never honored the restriction. 369 </p> 370 371 <p> 372 Go 1 will allow packages to copy struct values containing unexported fields from other packages. 373 Besides resolving the inconsistency, 374 this change admits a new kind of API: a package can return an opaque value without resorting to a pointer or interface. 375 The new implementations of <code>time.Time</code> and 376 <code>reflect.Value</code> are examples of types taking advantage of this new property. 377 </p> 378 379 <p> 380 As an example, if package <code>p</code> includes the definitions, 381 </p> 382 383 <pre> 384 type Struct struct { 385 Public int 386 secret int 387 } 388 func NewStruct(a int) Struct { // Note: not a pointer. 389 return Struct{a, f(a)} 390 } 391 func (s Struct) String() string { 392 return fmt.Sprintf("{%d (secret %d)}", s.Public, s.secret) 393 } 394 </pre> 395 396 <p> 397 a package that imports <code>p</code> can assign and copy values of type 398 <code>p.Struct</code> at will. 399 Behind the scenes the unexported fields will be assigned and copied just 400 as if they were exported, 401 but the client code will never be aware of them. The code 402 </p> 403 404 <pre> 405 import "p" 406 407 myStruct := p.NewStruct(23) 408 copyOfMyStruct := myStruct 409 fmt.Println(myStruct, copyOfMyStruct) 410 </pre> 411 412 <p> 413 will show that the secret field of the struct has been copied to the new value. 414 </p> 415 416 <p> 417 <em>Updating</em>: 418 This is a new feature, so existing code needs no changes. 419 </p> 420 421 <h3 id="equality">Equality</h3> 422 423 <p> 424 Before Go 1, the language did not define equality on struct and array values. 425 This meant, 426 among other things, that structs and arrays could not be used as map keys. 427 On the other hand, Go did define equality on function and map values. 428 Function equality was problematic in the presence of closures 429 (when are two closures equal?) 430 while map equality compared pointers, not the maps' content, which was usually 431 not what the user would want. 432 </p> 433 434 <p> 435 Go 1 addressed these issues. 436 First, structs and arrays can be compared for equality and inequality 437 (<code>==</code> and <code>!=</code>), 438 and therefore be used as map keys, 439 provided they are composed from elements for which equality is also defined, 440 using element-wise comparison. 441 </p> 442 443 {{code "/doc/progs/go1.go" `/type Day struct/` `/Printf/`}} 444 445 <p> 446 Second, Go 1 removes the definition of equality for function values, 447 except for comparison with <code>nil</code>. 448 Finally, map equality is gone too, also except for comparison with <code>nil</code>. 449 </p> 450 451 <p> 452 Note that equality is still undefined for slices, for which the 453 calculation is in general infeasible. Also note that the ordered 454 comparison operators (<code><</code> <code><=</code> 455 <code>></code> <code>>=</code>) are still undefined for 456 structs and arrays. 457 458 <p> 459 <em>Updating</em>: 460 Struct and array equality is a new feature, so existing code needs no changes. 461 Existing code that depends on function or map equality will be 462 rejected by the compiler and will need to be fixed by hand. 463 Few programs will be affected, but the fix may require some 464 redesign. 465 </p> 466 467 <h2 id="packages">The package hierarchy</h2> 468 469 <p> 470 Go 1 addresses many deficiencies in the old standard library and 471 cleans up a number of packages, making them more internally consistent 472 and portable. 473 </p> 474 475 <p> 476 This section describes how the packages have been rearranged in Go 1. 477 Some have moved, some have been renamed, some have been deleted. 478 New packages are described in later sections. 479 </p> 480 481 <h3 id="hierarchy">The package hierarchy</h3> 482 483 <p> 484 Go 1 has a rearranged package hierarchy that groups related items 485 into subdirectories. For instance, <code>utf8</code> and 486 <code>utf16</code> now occupy subdirectories of <code>unicode</code>. 487 Also, <a href="#subrepo">some packages</a> have moved into 488 subrepositories of 489 <a href="//code.google.com/p/go"><code>code.google.com/p/go</code></a> 490 while <a href="#deleted">others</a> have been deleted outright. 491 </p> 492 493 <table class="codetable" frame="border" summary="Moved packages"> 494 <colgroup align="left" width="60%"></colgroup> 495 <colgroup align="left" width="40%"></colgroup> 496 <tr> 497 <th align="left">Old path</th> 498 <th align="left">New path</th> 499 </tr> 500 <tr> 501 <td colspan="2"><hr></td> 502 </tr> 503 <tr><td>asn1</td> <td>encoding/asn1</td></tr> 504 <tr><td>csv</td> <td>encoding/csv</td></tr> 505 <tr><td>gob</td> <td>encoding/gob</td></tr> 506 <tr><td>json</td> <td>encoding/json</td></tr> 507 <tr><td>xml</td> <td>encoding/xml</td></tr> 508 <tr> 509 <td colspan="2"><hr></td> 510 </tr> 511 <tr><td>exp/template/html</td> <td>html/template</td></tr> 512 <tr> 513 <td colspan="2"><hr></td> 514 </tr> 515 <tr><td>big</td> <td>math/big</td></tr> 516 <tr><td>cmath</td> <td>math/cmplx</td></tr> 517 <tr><td>rand</td> <td>math/rand</td></tr> 518 <tr> 519 <td colspan="2"><hr></td> 520 </tr> 521 <tr><td>http</td> <td>net/http</td></tr> 522 <tr><td>http/cgi</td> <td>net/http/cgi</td></tr> 523 <tr><td>http/fcgi</td> <td>net/http/fcgi</td></tr> 524 <tr><td>http/httptest</td> <td>net/http/httptest</td></tr> 525 <tr><td>http/pprof</td> <td>net/http/pprof</td></tr> 526 <tr><td>mail</td> <td>net/mail</td></tr> 527 <tr><td>rpc</td> <td>net/rpc</td></tr> 528 <tr><td>rpc/jsonrpc</td> <td>net/rpc/jsonrpc</td></tr> 529 <tr><td>smtp</td> <td>net/smtp</td></tr> 530 <tr><td>url</td> <td>net/url</td></tr> 531 <tr> 532 <td colspan="2"><hr></td> 533 </tr> 534 <tr><td>exec</td> <td>os/exec</td></tr> 535 <tr> 536 <td colspan="2"><hr></td> 537 </tr> 538 <tr><td>scanner</td> <td>text/scanner</td></tr> 539 <tr><td>tabwriter</td> <td>text/tabwriter</td></tr> 540 <tr><td>template</td> <td>text/template</td></tr> 541 <tr><td>template/parse</td> <td>text/template/parse</td></tr> 542 <tr> 543 <td colspan="2"><hr></td> 544 </tr> 545 <tr><td>utf8</td> <td>unicode/utf8</td></tr> 546 <tr><td>utf16</td> <td>unicode/utf16</td></tr> 547 </table> 548 549 <p> 550 Note that the package names for the old <code>cmath</code> and 551 <code>exp/template/html</code> packages have changed to <code>cmplx</code> 552 and <code>template</code>. 553 </p> 554 555 <p> 556 <em>Updating</em>: 557 Running <code>go</code> <code>fix</code> will update all imports and package renames for packages that 558 remain inside the standard repository. Programs that import packages 559 that are no longer in the standard repository will need to be edited 560 by hand. 561 </p> 562 563 <h3 id="exp">The package tree exp</h3> 564 565 <p> 566 Because they are not standardized, the packages under the <code>exp</code> directory will not be available in the 567 standard Go 1 release distributions, although they will be available in source code form 568 in <a href="//code.google.com/p/go/">the repository</a> for 569 developers who wish to use them. 570 </p> 571 572 <p> 573 Several packages have moved under <code>exp</code> at the time of Go 1's release: 574 </p> 575 576 <ul> 577 <li><code>ebnf</code></li> 578 <li><code>html</code><sup>†</sup></li> 579 <li><code>go/types</code></li> 580 </ul> 581 582 <p> 583 (<sup>†</sup>The <code>EscapeString</code> and <code>UnescapeString</code> types remain 584 in package <code>html</code>.) 585 </p> 586 587 <p> 588 All these packages are available under the same names, with the prefix <code>exp/</code>: <code>exp/ebnf</code> etc. 589 </p> 590 591 <p> 592 Also, the <code>utf8.String</code> type has been moved to its own package, <code>exp/utf8string</code>. 593 </p> 594 595 <p> 596 Finally, the <code>gotype</code> command now resides in <code>exp/gotype</code>, while 597 <code>ebnflint</code> is now in <code>exp/ebnflint</code>. 598 If they are installed, they now reside in <code>$GOROOT/bin/tool</code>. 599 </p> 600 601 <p> 602 <em>Updating</em>: 603 Code that uses packages in <code>exp</code> will need to be updated by hand, 604 or else compiled from an installation that has <code>exp</code> available. 605 The <code>go</code> <code>fix</code> tool or the compiler will complain about such uses. 606 </p> 607 608 <h3 id="old">The package tree old</h3> 609 610 <p> 611 Because they are deprecated, the packages under the <code>old</code> directory will not be available in the 612 standard Go 1 release distributions, although they will be available in source code form for 613 developers who wish to use them. 614 </p> 615 616 <p> 617 The packages in their new locations are: 618 </p> 619 620 <ul> 621 <li><code>old/netchan</code></li> 622 </ul> 623 624 <p> 625 <em>Updating</em>: 626 Code that uses packages now in <code>old</code> will need to be updated by hand, 627 or else compiled from an installation that has <code>old</code> available. 628 The <code>go</code> <code>fix</code> tool will warn about such uses. 629 </p> 630 631 <h3 id="deleted">Deleted packages</h3> 632 633 <p> 634 Go 1 deletes several packages outright: 635 </p> 636 637 <ul> 638 <li><code>container/vector</code></li> 639 <li><code>exp/datafmt</code></li> 640 <li><code>go/typechecker</code></li> 641 <li><code>old/regexp</code></li> 642 <li><code>old/template</code></li> 643 <li><code>try</code></li> 644 </ul> 645 646 <p> 647 and also the command <code>gotry</code>. 648 </p> 649 650 <p> 651 <em>Updating</em>: 652 Code that uses <code>container/vector</code> should be updated to use 653 slices directly. See 654 <a href="//code.google.com/p/go-wiki/wiki/SliceTricks">the Go 655 Language Community Wiki</a> for some suggestions. 656 Code that uses the other packages (there should be almost zero) will need to be rethought. 657 </p> 658 659 <h3 id="subrepo">Packages moving to subrepositories</h3> 660 661 <p> 662 Go 1 has moved a number of packages into other repositories, usually sub-repositories of 663 <a href="//code.google.com/p/go/">the main Go repository</a>. 664 This table lists the old and new import paths: 665 666 <table class="codetable" frame="border" summary="Sub-repositories"> 667 <colgroup align="left" width="40%"></colgroup> 668 <colgroup align="left" width="60%"></colgroup> 669 <tr> 670 <th align="left">Old</th> 671 <th align="left">New</th> 672 </tr> 673 <tr> 674 <td colspan="2"><hr></td> 675 </tr> 676 <tr><td>crypto/bcrypt</td> <td>code.google.com/p/go.crypto/bcrypt</tr> 677 <tr><td>crypto/blowfish</td> <td>code.google.com/p/go.crypto/blowfish</tr> 678 <tr><td>crypto/cast5</td> <td>code.google.com/p/go.crypto/cast5</tr> 679 <tr><td>crypto/md4</td> <td>code.google.com/p/go.crypto/md4</tr> 680 <tr><td>crypto/ocsp</td> <td>code.google.com/p/go.crypto/ocsp</tr> 681 <tr><td>crypto/openpgp</td> <td>code.google.com/p/go.crypto/openpgp</tr> 682 <tr><td>crypto/openpgp/armor</td> <td>code.google.com/p/go.crypto/openpgp/armor</tr> 683 <tr><td>crypto/openpgp/elgamal</td> <td>code.google.com/p/go.crypto/openpgp/elgamal</tr> 684 <tr><td>crypto/openpgp/errors</td> <td>code.google.com/p/go.crypto/openpgp/errors</tr> 685 <tr><td>crypto/openpgp/packet</td> <td>code.google.com/p/go.crypto/openpgp/packet</tr> 686 <tr><td>crypto/openpgp/s2k</td> <td>code.google.com/p/go.crypto/openpgp/s2k</tr> 687 <tr><td>crypto/ripemd160</td> <td>code.google.com/p/go.crypto/ripemd160</tr> 688 <tr><td>crypto/twofish</td> <td>code.google.com/p/go.crypto/twofish</tr> 689 <tr><td>crypto/xtea</td> <td>code.google.com/p/go.crypto/xtea</tr> 690 <tr><td>exp/ssh</td> <td>code.google.com/p/go.crypto/ssh</tr> 691 <tr> 692 <td colspan="2"><hr></td> 693 </tr> 694 <tr><td>image/bmp</td> <td>code.google.com/p/go.image/bmp</tr> 695 <tr><td>image/tiff</td> <td>code.google.com/p/go.image/tiff</tr> 696 <tr> 697 <td colspan="2"><hr></td> 698 </tr> 699 <tr><td>net/dict</td> <td>code.google.com/p/go.net/dict</tr> 700 <tr><td>net/websocket</td> <td>code.google.com/p/go.net/websocket</tr> 701 <tr><td>exp/spdy</td> <td>code.google.com/p/go.net/spdy</tr> 702 <tr> 703 <td colspan="2"><hr></td> 704 </tr> 705 <tr><td>encoding/git85</td> <td>code.google.com/p/go.codereview/git85</tr> 706 <tr><td>patch</td> <td>code.google.com/p/go.codereview/patch</tr> 707 <tr> 708 <td colspan="2"><hr></td> 709 </tr> 710 <tr><td>exp/wingui</td> <td>code.google.com/p/gowingui</tr> 711 </table> 712 713 <p> 714 <em>Updating</em>: 715 Running <code>go</code> <code>fix</code> will update imports of these packages to use the new import paths. 716 Installations that depend on these packages will need to install them using 717 a <code>go get</code> command. 718 </p> 719 720 <h2 id="major">Major changes to the library</h2> 721 722 <p> 723 This section describes significant changes to the core libraries, the ones that 724 affect the most programs. 725 </p> 726 727 <h3 id="errors">The error type and errors package</h3> 728 729 <p> 730 The placement of <code>os.Error</code> in package <code>os</code> is mostly historical: errors first came up when implementing package <code>os</code>, and they seemed system-related at the time. 731 Since then it has become clear that errors are more fundamental than the operating system. For example, it would be nice to use <code>Errors</code> in packages that <code>os</code> depends on, like <code>syscall</code>. 732 Also, having <code>Error</code> in <code>os</code> introduces many dependencies on <code>os</code> that would otherwise not exist. 733 </p> 734 735 <p> 736 Go 1 solves these problems by introducing a built-in <code>error</code> interface type and a separate <code>errors</code> package (analogous to <code>bytes</code> and <code>strings</code>) that contains utility functions. 737 It replaces <code>os.NewError</code> with 738 <a href="/pkg/errors/#New"><code>errors.New</code></a>, 739 giving errors a more central place in the environment. 740 </p> 741 742 <p> 743 So the widely-used <code>String</code> method does not cause accidental satisfaction 744 of the <code>error</code> interface, the <code>error</code> interface uses instead 745 the name <code>Error</code> for that method: 746 </p> 747 748 <pre> 749 type error interface { 750 Error() string 751 } 752 </pre> 753 754 <p> 755 The <code>fmt</code> library automatically invokes <code>Error</code>, as it already 756 does for <code>String</code>, for easy printing of error values. 757 </p> 758 759 {{code "/doc/progs/go1.go" `/START ERROR EXAMPLE/` `/END ERROR EXAMPLE/`}} 760 761 <p> 762 All standard packages have been updated to use the new interface; the old <code>os.Error</code> is gone. 763 </p> 764 765 <p> 766 A new package, <a href="/pkg/errors/"><code>errors</code></a>, contains the function 767 </p> 768 769 <pre> 770 func New(text string) error 771 </pre> 772 773 <p> 774 to turn a string into an error. It replaces the old <code>os.NewError</code>. 775 </p> 776 777 {{code "/doc/progs/go1.go" `/ErrSyntax/`}} 778 779 <p> 780 <em>Updating</em>: 781 Running <code>go</code> <code>fix</code> will update almost all code affected by the change. 782 Code that defines error types with a <code>String</code> method will need to be updated 783 by hand to rename the methods to <code>Error</code>. 784 </p> 785 786 <h3 id="errno">System call errors</h3> 787 788 <p> 789 The old <code>syscall</code> package, which predated <code>os.Error</code> 790 (and just about everything else), 791 returned errors as <code>int</code> values. 792 In turn, the <code>os</code> package forwarded many of these errors, such 793 as <code>EINVAL</code>, but using a different set of errors on each platform. 794 This behavior was unpleasant and unportable. 795 </p> 796 797 <p> 798 In Go 1, the 799 <a href="/pkg/syscall/"><code>syscall</code></a> 800 package instead returns an <code>error</code> for system call errors. 801 On Unix, the implementation is done by a 802 <a href="/pkg/syscall/#Errno"><code>syscall.Errno</code></a> type 803 that satisfies <code>error</code> and replaces the old <code>os.Errno</code>. 804 </p> 805 806 <p> 807 The changes affecting <code>os.EINVAL</code> and relatives are 808 described <a href="#os">elsewhere</a>. 809 810 <p> 811 <em>Updating</em>: 812 Running <code>go</code> <code>fix</code> will update almost all code affected by the change. 813 Regardless, most code should use the <code>os</code> package 814 rather than <code>syscall</code> and so will be unaffected. 815 </p> 816 817 <h3 id="time">Time</h3> 818 819 <p> 820 Time is always a challenge to support well in a programming language. 821 The old Go <code>time</code> package had <code>int64</code> units, no 822 real type safety, 823 and no distinction between absolute times and durations. 824 </p> 825 826 <p> 827 One of the most sweeping changes in the Go 1 library is therefore a 828 complete redesign of the 829 <a href="/pkg/time/"><code>time</code></a> package. 830 Instead of an integer number of nanoseconds as an <code>int64</code>, 831 and a separate <code>*time.Time</code> type to deal with human 832 units such as hours and years, 833 there are now two fundamental types: 834 <a href="/pkg/time/#Time"><code>time.Time</code></a> 835 (a value, so the <code>*</code> is gone), which represents a moment in time; 836 and <a href="/pkg/time/#Duration"><code>time.Duration</code></a>, 837 which represents an interval. 838 Both have nanosecond resolution. 839 A <code>Time</code> can represent any time into the ancient 840 past and remote future, while a <code>Duration</code> can 841 span plus or minus only about 290 years. 842 There are methods on these types, plus a number of helpful 843 predefined constant durations such as <code>time.Second</code>. 844 </p> 845 846 <p> 847 Among the new methods are things like 848 <a href="/pkg/time/#Time.Add"><code>Time.Add</code></a>, 849 which adds a <code>Duration</code> to a <code>Time</code>, and 850 <a href="/pkg/time/#Time.Sub"><code>Time.Sub</code></a>, 851 which subtracts two <code>Times</code> to yield a <code>Duration</code>. 852 </p> 853 854 <p> 855 The most important semantic change is that the Unix epoch (Jan 1, 1970) is now 856 relevant only for those functions and methods that mention Unix: 857 <a href="/pkg/time/#Unix"><code>time.Unix</code></a> 858 and the <a href="/pkg/time/#Time.Unix"><code>Unix</code></a> 859 and <a href="/pkg/time/#Time.UnixNano"><code>UnixNano</code></a> methods 860 of the <code>Time</code> type. 861 In particular, 862 <a href="/pkg/time/#Now"><code>time.Now</code></a> 863 returns a <code>time.Time</code> value rather than, in the old 864 API, an integer nanosecond count since the Unix epoch. 865 </p> 866 867 {{code "/doc/progs/go1.go" `/sleepUntil/` `/^}/`}} 868 869 <p> 870 The new types, methods, and constants have been propagated through 871 all the standard packages that use time, such as <code>os</code> and 872 its representation of file time stamps. 873 </p> 874 875 <p> 876 <em>Updating</em>: 877 The <code>go</code> <code>fix</code> tool will update many uses of the old <code>time</code> package to use the new 878 types and methods, although it does not replace values such as <code>1e9</code> 879 representing nanoseconds per second. 880 Also, because of type changes in some of the values that arise, 881 some of the expressions rewritten by the fix tool may require 882 further hand editing; in such cases the rewrite will include 883 the correct function or method for the old functionality, but 884 may have the wrong type or require further analysis. 885 </p> 886 887 <h2 id="minor">Minor changes to the library</h2> 888 889 <p> 890 This section describes smaller changes, such as those to less commonly 891 used packages or that affect 892 few programs beyond the need to run <code>go</code> <code>fix</code>. 893 This category includes packages that are new in Go 1. 894 Collectively they improve portability, regularize behavior, and 895 make the interfaces more modern and Go-like. 896 </p> 897 898 <h3 id="archive_zip">The archive/zip package</h3> 899 900 <p> 901 In Go 1, <a href="/pkg/archive/zip/#Writer"><code>*zip.Writer</code></a> no 902 longer has a <code>Write</code> method. Its presence was a mistake. 903 </p> 904 905 <p> 906 <em>Updating</em>: 907 What little code is affected will be caught by the compiler and must be updated by hand. 908 </p> 909 910 <h3 id="bufio">The bufio package</h3> 911 912 <p> 913 In Go 1, <a href="/pkg/bufio/#NewReaderSize"><code>bufio.NewReaderSize</code></a> 914 and 915 <a href="/pkg/bufio/#NewWriterSize"><code>bufio.NewWriterSize</code></a> 916 functions no longer return an error for invalid sizes. 917 If the argument size is too small or invalid, it is adjusted. 918 </p> 919 920 <p> 921 <em>Updating</em>: 922 Running <code>go</code> <code>fix</code> will update calls that assign the error to _. 923 Calls that aren't fixed will be caught by the compiler and must be updated by hand. 924 </p> 925 926 <h3 id="compress">The compress/flate, compress/gzip and compress/zlib packages</h3> 927 928 <p> 929 In Go 1, the <code>NewWriterXxx</code> functions in 930 <a href="/pkg/compress/flate"><code>compress/flate</code></a>, 931 <a href="/pkg/compress/gzip"><code>compress/gzip</code></a> and 932 <a href="/pkg/compress/zlib"><code>compress/zlib</code></a> 933 all return <code>(*Writer, error)</code> if they take a compression level, 934 and <code>*Writer</code> otherwise. Package <code>gzip</code>'s 935 <code>Compressor</code> and <code>Decompressor</code> types have been renamed 936 to <code>Writer</code> and <code>Reader</code>. Package <code>flate</code>'s 937 <code>WrongValueError</code> type has been removed. 938 </p> 939 940 <p> 941 <em>Updating</em> 942 Running <code>go</code> <code>fix</code> will update old names and calls that assign the error to _. 943 Calls that aren't fixed will be caught by the compiler and must be updated by hand. 944 </p> 945 946 <h3 id="crypto_aes_des">The crypto/aes and crypto/des packages</h3> 947 948 <p> 949 In Go 1, the <code>Reset</code> method has been removed. Go does not guarantee 950 that memory is not copied and therefore this method was misleading. 951 </p> 952 953 <p> 954 The cipher-specific types <code>*aes.Cipher</code>, <code>*des.Cipher</code>, 955 and <code>*des.TripleDESCipher</code> have been removed in favor of 956 <code>cipher.Block</code>. 957 </p> 958 959 <p> 960 <em>Updating</em>: 961 Remove the calls to Reset. Replace uses of the specific cipher types with 962 cipher.Block. 963 </p> 964 965 <h3 id="crypto_elliptic">The crypto/elliptic package</h3> 966 967 <p> 968 In Go 1, <a href="/pkg/crypto/elliptic/#Curve"><code>elliptic.Curve</code></a> 969 has been made an interface to permit alternative implementations. The curve 970 parameters have been moved to the 971 <a href="/pkg/crypto/elliptic/#CurveParams"><code>elliptic.CurveParams</code></a> 972 structure. 973 </p> 974 975 <p> 976 <em>Updating</em>: 977 Existing users of <code>*elliptic.Curve</code> will need to change to 978 simply <code>elliptic.Curve</code>. Calls to <code>Marshal</code>, 979 <code>Unmarshal</code> and <code>GenerateKey</code> are now functions 980 in <code>crypto/elliptic</code> that take an <code>elliptic.Curve</code> 981 as their first argument. 982 </p> 983 984 <h3 id="crypto_hmac">The crypto/hmac package</h3> 985 986 <p> 987 In Go 1, the hash-specific functions, such as <code>hmac.NewMD5</code>, have 988 been removed from <code>crypto/hmac</code>. Instead, <code>hmac.New</code> takes 989 a function that returns a <code>hash.Hash</code>, such as <code>md5.New</code>. 990 </p> 991 992 <p> 993 <em>Updating</em>: 994 Running <code>go</code> <code>fix</code> will perform the needed changes. 995 </p> 996 997 <h3 id="crypto_x509">The crypto/x509 package</h3> 998 999 <p> 1000 In Go 1, the 1001 <a href="/pkg/crypto/x509/#CreateCertificate"><code>CreateCertificate</code></a> 1002 function and 1003 <a href="/pkg/crypto/x509/#Certificate.CreateCRL"><code>CreateCRL</code></a> 1004 method in <code>crypto/x509</code> have been altered to take an 1005 <code>interface{}</code> where they previously took a <code>*rsa.PublicKey</code> 1006 or <code>*rsa.PrivateKey</code>. This will allow other public key algorithms 1007 to be implemented in the future. 1008 </p> 1009 1010 <p> 1011 <em>Updating</em>: 1012 No changes will be needed. 1013 </p> 1014 1015 <h3 id="encoding_binary">The encoding/binary package</h3> 1016 1017 <p> 1018 In Go 1, the <code>binary.TotalSize</code> function has been replaced by 1019 <a href="/pkg/encoding/binary/#Size"><code>Size</code></a>, 1020 which takes an <code>interface{}</code> argument rather than 1021 a <code>reflect.Value</code>. 1022 </p> 1023 1024 <p> 1025 <em>Updating</em>: 1026 What little code is affected will be caught by the compiler and must be updated by hand. 1027 </p> 1028 1029 <h3 id="encoding_xml">The encoding/xml package</h3> 1030 1031 <p> 1032 In Go 1, the <a href="/pkg/encoding/xml/"><code>xml</code></a> package 1033 has been brought closer in design to the other marshaling packages such 1034 as <a href="/pkg/encoding/gob/"><code>encoding/gob</code></a>. 1035 </p> 1036 1037 <p> 1038 The old <code>Parser</code> type is renamed 1039 <a href="/pkg/encoding/xml/#Decoder"><code>Decoder</code></a> and has a new 1040 <a href="/pkg/encoding/xml/#Decoder.Decode"><code>Decode</code></a> method. An 1041 <a href="/pkg/encoding/xml/#Encoder"><code>Encoder</code></a> type was also introduced. 1042 </p> 1043 1044 <p> 1045 The functions <a href="/pkg/encoding/xml/#Marshal"><code>Marshal</code></a> 1046 and <a href="/pkg/encoding/xml/#Unmarshal"><code>Unmarshal</code></a> 1047 work with <code>[]byte</code> values now. To work with streams, 1048 use the new <a href="/pkg/encoding/xml/#Encoder"><code>Encoder</code></a> 1049 and <a href="/pkg/encoding/xml/#Decoder"><code>Decoder</code></a> types. 1050 </p> 1051 1052 <p> 1053 When marshaling or unmarshaling values, the format of supported flags in 1054 field tags has changed to be closer to the 1055 <a href="/pkg/encoding/json"><code>json</code></a> package 1056 (<code>`xml:"name,flag"`</code>). The matching done between field tags, field 1057 names, and the XML attribute and element names is now case-sensitive. 1058 The <code>XMLName</code> field tag, if present, must also match the name 1059 of the XML element being marshaled. 1060 </p> 1061 1062 <p> 1063 <em>Updating</em>: 1064 Running <code>go</code> <code>fix</code> will update most uses of the package except for some calls to 1065 <code>Unmarshal</code>. Special care must be taken with field tags, 1066 since the fix tool will not update them and if not fixed by hand they will 1067 misbehave silently in some cases. For example, the old 1068 <code>"attr"</code> is now written <code>",attr"</code> while plain 1069 <code>"attr"</code> remains valid but with a different meaning. 1070 </p> 1071 1072 <h3 id="expvar">The expvar package</h3> 1073 1074 <p> 1075 In Go 1, the <code>RemoveAll</code> function has been removed. 1076 The <code>Iter</code> function and Iter method on <code>*Map</code> have 1077 been replaced by 1078 <a href="/pkg/expvar/#Do"><code>Do</code></a> 1079 and 1080 <a href="/pkg/expvar/#Map.Do"><code>(*Map).Do</code></a>. 1081 </p> 1082 1083 <p> 1084 <em>Updating</em>: 1085 Most code using <code>expvar</code> will not need changing. The rare code that used 1086 <code>Iter</code> can be updated to pass a closure to <code>Do</code> to achieve the same effect. 1087 </p> 1088 1089 <h3 id="flag">The flag package</h3> 1090 1091 <p> 1092 In Go 1, the interface <a href="/pkg/flag/#Value"><code>flag.Value</code></a> has changed slightly. 1093 The <code>Set</code> method now returns an <code>error</code> instead of 1094 a <code>bool</code> to indicate success or failure. 1095 </p> 1096 1097 <p> 1098 There is also a new kind of flag, <code>Duration</code>, to support argument 1099 values specifying time intervals. 1100 Values for such flags must be given units, just as <code>time.Duration</code> 1101 formats them: <code>10s</code>, <code>1h30m</code>, etc. 1102 </p> 1103 1104 {{code "/doc/progs/go1.go" `/timeout/`}} 1105 1106 <p> 1107 <em>Updating</em>: 1108 Programs that implement their own flags will need minor manual fixes to update their 1109 <code>Set</code> methods. 1110 The <code>Duration</code> flag is new and affects no existing code. 1111 </p> 1112 1113 1114 <h3 id="go">The go/* packages</h3> 1115 1116 <p> 1117 Several packages under <code>go</code> have slightly revised APIs. 1118 </p> 1119 1120 <p> 1121 A concrete <code>Mode</code> type was introduced for configuration mode flags 1122 in the packages 1123 <a href="/pkg/go/scanner/"><code>go/scanner</code></a>, 1124 <a href="/pkg/go/parser/"><code>go/parser</code></a>, 1125 <a href="/pkg/go/printer/"><code>go/printer</code></a>, and 1126 <a href="/pkg/go/doc/"><code>go/doc</code></a>. 1127 </p> 1128 1129 <p> 1130 The modes <code>AllowIllegalChars</code> and <code>InsertSemis</code> have been removed 1131 from the <a href="/pkg/go/scanner/"><code>go/scanner</code></a> package. They were mostly 1132 useful for scanning text other then Go source files. Instead, the 1133 <a href="/pkg/text/scanner/"><code>text/scanner</code></a> package should be used 1134 for that purpose. 1135 </p> 1136 1137 <p> 1138 The <a href="/pkg/go/scanner/#ErrorHandler"><code>ErrorHandler</code></a> provided 1139 to the scanner's <a href="/pkg/go/scanner/#Scanner.Init"><code>Init</code></a> method is 1140 now simply a function rather than an interface. The <code>ErrorVector</code> type has 1141 been removed in favor of the (existing) <a href="/pkg/go/scanner/#ErrorList"><code>ErrorList</code></a> 1142 type, and the <code>ErrorVector</code> methods have been migrated. Instead of embedding 1143 an <code>ErrorVector</code> in a client of the scanner, now a client should maintain 1144 an <code>ErrorList</code>. 1145 </p> 1146 1147 <p> 1148 The set of parse functions provided by the <a href="/pkg/go/parser/"><code>go/parser</code></a> 1149 package has been reduced to the primary parse function 1150 <a href="/pkg/go/parser/#ParseFile"><code>ParseFile</code></a>, and a couple of 1151 convenience functions <a href="/pkg/go/parser/#ParseDir"><code>ParseDir</code></a> 1152 and <a href="/pkg/go/parser/#ParseExpr"><code>ParseExpr</code></a>. 1153 </p> 1154 1155 <p> 1156 The <a href="/pkg/go/printer/"><code>go/printer</code></a> package supports an additional 1157 configuration mode <a href="/pkg/go/printer/#Mode"><code>SourcePos</code></a>; 1158 if set, the printer will emit <code>//line</code> comments such that the generated 1159 output contains the original source code position information. The new type 1160 <a href="/pkg/go/printer/#CommentedNode"><code>CommentedNode</code></a> can be 1161 used to provide comments associated with an arbitrary 1162 <a href="/pkg/go/ast/#Node"><code>ast.Node</code></a> (until now only 1163 <a href="/pkg/go/ast/#File"><code>ast.File</code></a> carried comment information). 1164 </p> 1165 1166 <p> 1167 The type names of the <a href="/pkg/go/doc/"><code>go/doc</code></a> package have been 1168 streamlined by removing the <code>Doc</code> suffix: <code>PackageDoc</code> 1169 is now <code>Package</code>, <code>ValueDoc</code> is <code>Value</code>, etc. 1170 Also, all types now consistently have a <code>Name</code> field (or <code>Names</code>, 1171 in the case of type <code>Value</code>) and <code>Type.Factories</code> has become 1172 <code>Type.Funcs</code>. 1173 Instead of calling <code>doc.NewPackageDoc(pkg, importpath)</code>, 1174 documentation for a package is created with: 1175 </p> 1176 1177 <pre> 1178 doc.New(pkg, importpath, mode) 1179 </pre> 1180 1181 <p> 1182 where the new <code>mode</code> parameter specifies the operation mode: 1183 if set to <a href="/pkg/go/doc/#AllDecls"><code>AllDecls</code></a>, all declarations 1184 (not just exported ones) are considered. 1185 The function <code>NewFileDoc</code> was removed, and the function 1186 <code>CommentText</code> has become the method 1187 <a href="/pkg/go/ast/#CommentGroup.Text"><code>Text</code></a> of 1188 <a href="/pkg/go/ast/#CommentGroup"><code>ast.CommentGroup</code></a>. 1189 </p> 1190 1191 <p> 1192 In package <a href="/pkg/go/token/"><code>go/token</code></a>, the 1193 <a href="/pkg/go/token/#FileSet"><code>token.FileSet</code></a> method <code>Files</code> 1194 (which originally returned a channel of <code>*token.File</code>s) has been replaced 1195 with the iterator <a href="/pkg/go/token/#FileSet.Iterate"><code>Iterate</code></a> that 1196 accepts a function argument instead. 1197 </p> 1198 1199 <p> 1200 In package <a href="/pkg/go/build/"><code>go/build</code></a>, the API 1201 has been nearly completely replaced. 1202 The package still computes Go package information 1203 but it does not run the build: the <code>Cmd</code> and <code>Script</code> 1204 types are gone. 1205 (To build code, use the new 1206 <a href="/cmd/go/"><code>go</code></a> command instead.) 1207 The <code>DirInfo</code> type is now named 1208 <a href="/pkg/go/build/#Package"><code>Package</code></a>. 1209 <code>FindTree</code> and <code>ScanDir</code> are replaced by 1210 <a href="/pkg/go/build/#Import"><code>Import</code></a> 1211 and 1212 <a href="/pkg/go/build/#ImportDir"><code>ImportDir</code></a>. 1213 </p> 1214 1215 <p> 1216 <em>Updating</em>: 1217 Code that uses packages in <code>go</code> will have to be updated by hand; the 1218 compiler will reject incorrect uses. Templates used in conjunction with any of the 1219 <code>go/doc</code> types may need manual fixes; the renamed fields will lead 1220 to run-time errors. 1221 </p> 1222 1223 <h3 id="hash">The hash package</h3> 1224 1225 <p> 1226 In Go 1, the definition of <a href="/pkg/hash/#Hash"><code>hash.Hash</code></a> includes 1227 a new method, <code>BlockSize</code>. This new method is used primarily in the 1228 cryptographic libraries. 1229 </p> 1230 1231 <p> 1232 The <code>Sum</code> method of the 1233 <a href="/pkg/hash/#Hash"><code>hash.Hash</code></a> interface now takes a 1234 <code>[]byte</code> argument, to which the hash value will be appended. 1235 The previous behavior can be recreated by adding a <code>nil</code> argument to the call. 1236 </p> 1237 1238 <p> 1239 <em>Updating</em>: 1240 Existing implementations of <code>hash.Hash</code> will need to add a 1241 <code>BlockSize</code> method. Hashes that process the input one byte at 1242 a time can implement <code>BlockSize</code> to return 1. 1243 Running <code>go</code> <code>fix</code> will update calls to the <code>Sum</code> methods of the various 1244 implementations of <code>hash.Hash</code>. 1245 </p> 1246 1247 <p> 1248 <em>Updating</em>: 1249 Since the package's functionality is new, no updating is necessary. 1250 </p> 1251 1252 <h3 id="http">The http package</h3> 1253 1254 <p> 1255 In Go 1 the <a href="/pkg/net/http/"><code>http</code></a> package is refactored, 1256 putting some of the utilities into a 1257 <a href="/pkg/net/http/httputil/"><code>httputil</code></a> subdirectory. 1258 These pieces are only rarely needed by HTTP clients. 1259 The affected items are: 1260 </p> 1261 1262 <ul> 1263 <li>ClientConn</li> 1264 <li>DumpRequest</li> 1265 <li>DumpRequestOut</li> 1266 <li>DumpResponse</li> 1267 <li>NewChunkedReader</li> 1268 <li>NewChunkedWriter</li> 1269 <li>NewClientConn</li> 1270 <li>NewProxyClientConn</li> 1271 <li>NewServerConn</li> 1272 <li>NewSingleHostReverseProxy</li> 1273 <li>ReverseProxy</li> 1274 <li>ServerConn</li> 1275 </ul> 1276 1277 <p> 1278 The <code>Request.RawURL</code> field has been removed; it was a 1279 historical artifact. 1280 </p> 1281 1282 <p> 1283 The <code>Handle</code> and <code>HandleFunc</code> 1284 functions, and the similarly-named methods of <code>ServeMux</code>, 1285 now panic if an attempt is made to register the same pattern twice. 1286 </p> 1287 1288 <p> 1289 <em>Updating</em>: 1290 Running <code>go</code> <code>fix</code> will update the few programs that are affected except for 1291 uses of <code>RawURL</code>, which must be fixed by hand. 1292 </p> 1293 1294 <h3 id="image">The image package</h3> 1295 1296 <p> 1297 The <a href="/pkg/image/"><code>image</code></a> package has had a number of 1298 minor changes, rearrangements and renamings. 1299 </p> 1300 1301 <p> 1302 Most of the color handling code has been moved into its own package, 1303 <a href="/pkg/image/color/"><code>image/color</code></a>. 1304 For the elements that moved, a symmetry arises; for instance, 1305 each pixel of an 1306 <a href="/pkg/image/#RGBA"><code>image.RGBA</code></a> 1307 is a 1308 <a href="/pkg/image/color/#RGBA"><code>color.RGBA</code></a>. 1309 </p> 1310 1311 <p> 1312 The old <code>image/ycbcr</code> package has been folded, with some 1313 renamings, into the 1314 <a href="/pkg/image/"><code>image</code></a> 1315 and 1316 <a href="/pkg/image/color/"><code>image/color</code></a> 1317 packages. 1318 </p> 1319 1320 <p> 1321 The old <code>image.ColorImage</code> type is still in the <code>image</code> 1322 package but has been renamed 1323 <a href="/pkg/image/#Uniform"><code>image.Uniform</code></a>, 1324 while <code>image.Tiled</code> has been removed. 1325 </p> 1326 1327 <p> 1328 This table lists the renamings. 1329 </p> 1330 1331 <table class="codetable" frame="border" summary="image renames"> 1332 <colgroup align="left" width="50%"></colgroup> 1333 <colgroup align="left" width="50%"></colgroup> 1334 <tr> 1335 <th align="left">Old</th> 1336 <th align="left">New</th> 1337 </tr> 1338 <tr> 1339 <td colspan="2"><hr></td> 1340 </tr> 1341 <tr><td>image.Color</td> <td>color.Color</td></tr> 1342 <tr><td>image.ColorModel</td> <td>color.Model</td></tr> 1343 <tr><td>image.ColorModelFunc</td> <td>color.ModelFunc</td></tr> 1344 <tr><td>image.PalettedColorModel</td> <td>color.Palette</td></tr> 1345 <tr> 1346 <td colspan="2"><hr></td> 1347 </tr> 1348 <tr><td>image.RGBAColor</td> <td>color.RGBA</td></tr> 1349 <tr><td>image.RGBA64Color</td> <td>color.RGBA64</td></tr> 1350 <tr><td>image.NRGBAColor</td> <td>color.NRGBA</td></tr> 1351 <tr><td>image.NRGBA64Color</td> <td>color.NRGBA64</td></tr> 1352 <tr><td>image.AlphaColor</td> <td>color.Alpha</td></tr> 1353 <tr><td>image.Alpha16Color</td> <td>color.Alpha16</td></tr> 1354 <tr><td>image.GrayColor</td> <td>color.Gray</td></tr> 1355 <tr><td>image.Gray16Color</td> <td>color.Gray16</td></tr> 1356 <tr> 1357 <td colspan="2"><hr></td> 1358 </tr> 1359 <tr><td>image.RGBAColorModel</td> <td>color.RGBAModel</td></tr> 1360 <tr><td>image.RGBA64ColorModel</td> <td>color.RGBA64Model</td></tr> 1361 <tr><td>image.NRGBAColorModel</td> <td>color.NRGBAModel</td></tr> 1362 <tr><td>image.NRGBA64ColorModel</td> <td>color.NRGBA64Model</td></tr> 1363 <tr><td>image.AlphaColorModel</td> <td>color.AlphaModel</td></tr> 1364 <tr><td>image.Alpha16ColorModel</td> <td>color.Alpha16Model</td></tr> 1365 <tr><td>image.GrayColorModel</td> <td>color.GrayModel</td></tr> 1366 <tr><td>image.Gray16ColorModel</td> <td>color.Gray16Model</td></tr> 1367 <tr> 1368 <td colspan="2"><hr></td> 1369 </tr> 1370 <tr><td>ycbcr.RGBToYCbCr</td> <td>color.RGBToYCbCr</td></tr> 1371 <tr><td>ycbcr.YCbCrToRGB</td> <td>color.YCbCrToRGB</td></tr> 1372 <tr><td>ycbcr.YCbCrColorModel</td> <td>color.YCbCrModel</td></tr> 1373 <tr><td>ycbcr.YCbCrColor</td> <td>color.YCbCr</td></tr> 1374 <tr><td>ycbcr.YCbCr</td> <td>image.YCbCr</td></tr> 1375 <tr> 1376 <td colspan="2"><hr></td> 1377 </tr> 1378 <tr><td>ycbcr.SubsampleRatio444</td> <td>image.YCbCrSubsampleRatio444</td></tr> 1379 <tr><td>ycbcr.SubsampleRatio422</td> <td>image.YCbCrSubsampleRatio422</td></tr> 1380 <tr><td>ycbcr.SubsampleRatio420</td> <td>image.YCbCrSubsampleRatio420</td></tr> 1381 <tr> 1382 <td colspan="2"><hr></td> 1383 </tr> 1384 <tr><td>image.ColorImage</td> <td>image.Uniform</td></tr> 1385 </table> 1386 1387 <p> 1388 The image package's <code>New</code> functions 1389 (<a href="/pkg/image/#NewRGBA"><code>NewRGBA</code></a>, 1390 <a href="/pkg/image/#NewRGBA64"><code>NewRGBA64</code></a>, etc.) 1391 take an <a href="/pkg/image/#Rectangle"><code>image.Rectangle</code></a> as an argument 1392 instead of four integers. 1393 </p> 1394 1395 <p> 1396 Finally, there are new predefined <code>color.Color</code> variables 1397 <a href="/pkg/image/color/#Black"><code>color.Black</code></a>, 1398 <a href="/pkg/image/color/#White"><code>color.White</code></a>, 1399 <a href="/pkg/image/color/#Opaque"><code>color.Opaque</code></a> 1400 and 1401 <a href="/pkg/image/color/#Transparent"><code>color.Transparent</code></a>. 1402 </p> 1403 1404 <p> 1405 <em>Updating</em>: 1406 Running <code>go</code> <code>fix</code> will update almost all code affected by the change. 1407 </p> 1408 1409 <h3 id="log_syslog">The log/syslog package</h3> 1410 1411 <p> 1412 In Go 1, the <a href="/pkg/log/syslog/#NewLogger"><code>syslog.NewLogger</code></a> 1413 function returns an error as well as a <code>log.Logger</code>. 1414 </p> 1415 1416 <p> 1417 <em>Updating</em>: 1418 What little code is affected will be caught by the compiler and must be updated by hand. 1419 </p> 1420 1421 <h3 id="mime">The mime package</h3> 1422 1423 <p> 1424 In Go 1, the <a href="/pkg/mime/#FormatMediaType"><code>FormatMediaType</code></a> function 1425 of the <code>mime</code> package has been simplified to make it 1426 consistent with 1427 <a href="/pkg/mime/#ParseMediaType"><code>ParseMediaType</code></a>. 1428 It now takes <code>"text/html"</code> rather than <code>"text"</code> and <code>"html"</code>. 1429 </p> 1430 1431 <p> 1432 <em>Updating</em>: 1433 What little code is affected will be caught by the compiler and must be updated by hand. 1434 </p> 1435 1436 <h3 id="net">The net package</h3> 1437 1438 <p> 1439 In Go 1, the various <code>SetTimeout</code>, 1440 <code>SetReadTimeout</code>, and <code>SetWriteTimeout</code> methods 1441 have been replaced with 1442 <a href="/pkg/net/#IPConn.SetDeadline"><code>SetDeadline</code></a>, 1443 <a href="/pkg/net/#IPConn.SetReadDeadline"><code>SetReadDeadline</code></a>, and 1444 <a href="/pkg/net/#IPConn.SetWriteDeadline"><code>SetWriteDeadline</code></a>, 1445 respectively. Rather than taking a timeout value in nanoseconds that 1446 apply to any activity on the connection, the new methods set an 1447 absolute deadline (as a <code>time.Time</code> value) after which 1448 reads and writes will time out and no longer block. 1449 </p> 1450 1451 <p> 1452 There are also new functions 1453 <a href="/pkg/net/#DialTimeout"><code>net.DialTimeout</code></a> 1454 to simplify timing out dialing a network address and 1455 <a href="/pkg/net/#ListenMulticastUDP"><code>net.ListenMulticastUDP</code></a> 1456 to allow multicast UDP to listen concurrently across multiple listeners. 1457 The <code>net.ListenMulticastUDP</code> function replaces the old 1458 <code>JoinGroup</code> and <code>LeaveGroup</code> methods. 1459 </p> 1460 1461 <p> 1462 <em>Updating</em>: 1463 Code that uses the old methods will fail to compile and must be updated by hand. 1464 The semantic change makes it difficult for the fix tool to update automatically. 1465 </p> 1466 1467 <h3 id="os">The os package</h3> 1468 1469 <p> 1470 The <code>Time</code> function has been removed; callers should use 1471 the <a href="/pkg/time/#Time"><code>Time</code></a> type from the 1472 <code>time</code> package. 1473 </p> 1474 1475 <p> 1476 The <code>Exec</code> function has been removed; callers should use 1477 <code>Exec</code> from the <code>syscall</code> package, where available. 1478 </p> 1479 1480 <p> 1481 The <code>ShellExpand</code> function has been renamed to <a 1482 href="/pkg/os/#ExpandEnv"><code>ExpandEnv</code></a>. 1483 </p> 1484 1485 <p> 1486 The <a href="/pkg/os/#NewFile"><code>NewFile</code></a> function 1487 now takes a <code>uintptr</code> fd, instead of an <code>int</code>. 1488 The <a href="/pkg/os/#File.Fd"><code>Fd</code></a> method on files now 1489 also returns a <code>uintptr</code>. 1490 </p> 1491 1492 <p> 1493 There are no longer error constants such as <code>EINVAL</code> 1494 in the <code>os</code> package, since the set of values varied with 1495 the underlying operating system. There are new portable functions like 1496 <a href="/pkg/os/#IsPermission"><code>IsPermission</code></a> 1497 to test common error properties, plus a few new error values 1498 with more Go-like names, such as 1499 <a href="/pkg/os/#ErrPermission"><code>ErrPermission</code></a> 1500 and 1501 <a href="/pkg/os/#ErrNotExist"><code>ErrNotExist</code></a>. 1502 </p> 1503 1504 <p> 1505 The <code>Getenverror</code> function has been removed. To distinguish 1506 between a non-existent environment variable and an empty string, 1507 use <a href="/pkg/os/#Environ"><code>os.Environ</code></a> or 1508 <a href="/pkg/syscall/#Getenv"><code>syscall.Getenv</code></a>. 1509 </p> 1510 1511 1512 <p> 1513 The <a href="/pkg/os/#Process.Wait"><code>Process.Wait</code></a> method has 1514 dropped its option argument and the associated constants are gone 1515 from the package. 1516 Also, the function <code>Wait</code> is gone; only the method of 1517 the <code>Process</code> type persists. 1518 </p> 1519 1520 <p> 1521 The <code>Waitmsg</code> type returned by 1522 <a href="/pkg/os/#Process.Wait"><code>Process.Wait</code></a> 1523 has been replaced with a more portable 1524 <a href="/pkg/os/#ProcessState"><code>ProcessState</code></a> 1525 type with accessor methods to recover information about the 1526 process. 1527 Because of changes to <code>Wait</code>, the <code>ProcessState</code> 1528 value always describes an exited process. 1529 Portability concerns simplified the interface in other ways, but the values returned by the 1530 <a href="/pkg/os/#ProcessState.Sys"><code>ProcessState.Sys</code></a> and 1531 <a href="/pkg/os/#ProcessState.SysUsage"><code>ProcessState.SysUsage</code></a> 1532 methods can be type-asserted to underlying system-specific data structures such as 1533 <a href="/pkg/syscall/#WaitStatus"><code>syscall.WaitStatus</code></a> and 1534 <a href="/pkg/syscall/#Rusage"><code>syscall.Rusage</code></a> on Unix. 1535 </p> 1536 1537 <p> 1538 <em>Updating</em>: 1539 Running <code>go</code> <code>fix</code> will drop a zero argument to <code>Process.Wait</code>. 1540 All other changes will be caught by the compiler and must be updated by hand. 1541 </p> 1542 1543 <h4 id="os_fileinfo">The os.FileInfo type</h4> 1544 1545 <p> 1546 Go 1 redefines the <a href="/pkg/os/#FileInfo"><code>os.FileInfo</code></a> type, 1547 changing it from a struct to an interface: 1548 </p> 1549 1550 <pre> 1551 type FileInfo interface { 1552 Name() string // base name of the file 1553 Size() int64 // length in bytes 1554 Mode() FileMode // file mode bits 1555 ModTime() time.Time // modification time 1556 IsDir() bool // abbreviation for Mode().IsDir() 1557 Sys() interface{} // underlying data source (can return nil) 1558 } 1559 </pre> 1560 1561 <p> 1562 The file mode information has been moved into a subtype called 1563 <a href="/pkg/os/#FileMode"><code>os.FileMode</code></a>, 1564 a simple integer type with <code>IsDir</code>, <code>Perm</code>, and <code>String</code> 1565 methods. 1566 </p> 1567 1568 <p> 1569 The system-specific details of file modes and properties such as (on Unix) 1570 i-number have been removed from <code>FileInfo</code> altogether. 1571 Instead, each operating system's <code>os</code> package provides an 1572 implementation of the <code>FileInfo</code> interface, which 1573 has a <code>Sys</code> method that returns the 1574 system-specific representation of file metadata. 1575 For instance, to discover the i-number of a file on a Unix system, unpack 1576 the <code>FileInfo</code> like this: 1577 </p> 1578 1579 <pre> 1580 fi, err := os.Stat("hello.go") 1581 if err != nil { 1582 log.Fatal(err) 1583 } 1584 // Check that it's a Unix file. 1585 unixStat, ok := fi.Sys().(*syscall.Stat_t) 1586 if !ok { 1587 log.Fatal("hello.go: not a Unix file") 1588 } 1589 fmt.Printf("file i-number: %d\n", unixStat.Ino) 1590 </pre> 1591 1592 <p> 1593 Assuming (which is unwise) that <code>"hello.go"</code> is a Unix file, 1594 the i-number expression could be contracted to 1595 </p> 1596 1597 <pre> 1598 fi.Sys().(*syscall.Stat_t).Ino 1599 </pre> 1600 1601 <p> 1602 The vast majority of uses of <code>FileInfo</code> need only the methods 1603 of the standard interface. 1604 </p> 1605 1606 <p> 1607 The <code>os</code> package no longer contains wrappers for the POSIX errors 1608 such as <code>ENOENT</code>. 1609 For the few programs that need to verify particular error conditions, there are 1610 now the boolean functions 1611 <a href="/pkg/os/#IsExist"><code>IsExist</code></a>, 1612 <a href="/pkg/os/#IsNotExist"><code>IsNotExist</code></a> 1613 and 1614 <a href="/pkg/os/#IsPermission"><code>IsPermission</code></a>. 1615 </p> 1616 1617 {{code "/doc/progs/go1.go" `/os\.Open/` `/}/`}} 1618 1619 <p> 1620 <em>Updating</em>: 1621 Running <code>go</code> <code>fix</code> will update code that uses the old equivalent of the current <code>os.FileInfo</code> 1622 and <code>os.FileMode</code> API. 1623 Code that needs system-specific file details will need to be updated by hand. 1624 Code that uses the old POSIX error values from the <code>os</code> package 1625 will fail to compile and will also need to be updated by hand. 1626 </p> 1627 1628 <h3 id="os_signal">The os/signal package</h3> 1629 1630 <p> 1631 The <code>os/signal</code> package in Go 1 replaces the 1632 <code>Incoming</code> function, which returned a channel 1633 that received all incoming signals, 1634 with the selective <code>Notify</code> function, which asks 1635 for delivery of specific signals on an existing channel. 1636 </p> 1637 1638 <p> 1639 <em>Updating</em>: 1640 Code must be updated by hand. 1641 A literal translation of 1642 </p> 1643 <pre> 1644 c := signal.Incoming() 1645 </pre> 1646 <p> 1647 is 1648 </p> 1649 <pre> 1650 c := make(chan os.Signal) 1651 signal.Notify(c) // ask for all signals 1652 </pre> 1653 <p> 1654 but most code should list the specific signals it wants to handle instead: 1655 </p> 1656 <pre> 1657 c := make(chan os.Signal) 1658 signal.Notify(c, syscall.SIGHUP, syscall.SIGQUIT) 1659 </pre> 1660 1661 <h3 id="path_filepath">The path/filepath package</h3> 1662 1663 <p> 1664 In Go 1, the <a href="/pkg/path/filepath/#Walk"><code>Walk</code></a> function of the 1665 <code>path/filepath</code> package 1666 has been changed to take a function value of type 1667 <a href="/pkg/path/filepath/#WalkFunc"><code>WalkFunc</code></a> 1668 instead of a <code>Visitor</code> interface value. 1669 <code>WalkFunc</code> unifies the handling of both files and directories. 1670 </p> 1671 1672 <pre> 1673 type WalkFunc func(path string, info os.FileInfo, err error) error 1674 </pre> 1675 1676 <p> 1677 The <code>WalkFunc</code> function will be called even for files or directories that could not be opened; 1678 in such cases the error argument will describe the failure. 1679 If a directory's contents are to be skipped, 1680 the function should return the value <a href="/pkg/path/filepath/#pkg-variables"><code>filepath.SkipDir</code></a> 1681 </p> 1682 1683 {{code "/doc/progs/go1.go" `/STARTWALK/` `/ENDWALK/`}} 1684 1685 <p> 1686 <em>Updating</em>: 1687 The change simplifies most code but has subtle consequences, so affected programs 1688 will need to be updated by hand. 1689 The compiler will catch code using the old interface. 1690 </p> 1691 1692 <h3 id="regexp">The regexp package</h3> 1693 1694 <p> 1695 The <a href="/pkg/regexp/"><code>regexp</code></a> package has been rewritten. 1696 It has the same interface but the specification of the regular expressions 1697 it supports has changed from the old "egrep" form to that of 1698 <a href="//code.google.com/p/re2/">RE2</a>. 1699 </p> 1700 1701 <p> 1702 <em>Updating</em>: 1703 Code that uses the package should have its regular expressions checked by hand. 1704 </p> 1705 1706 <h3 id="runtime">The runtime package</h3> 1707 1708 <p> 1709 In Go 1, much of the API exported by package 1710 <code>runtime</code> has been removed in favor of 1711 functionality provided by other packages. 1712 Code using the <code>runtime.Type</code> interface 1713 or its specific concrete type implementations should 1714 now use package <a href="/pkg/reflect/"><code>reflect</code></a>. 1715 Code using <code>runtime.Semacquire</code> or <code>runtime.Semrelease</code> 1716 should use channels or the abstractions in package <a href="/pkg/sync/"><code>sync</code></a>. 1717 The <code>runtime.Alloc</code>, <code>runtime.Free</code>, 1718 and <code>runtime.Lookup</code> functions, an unsafe API created for 1719 debugging the memory allocator, have no replacement. 1720 </p> 1721 1722 <p> 1723 Before, <code>runtime.MemStats</code> was a global variable holding 1724 statistics about memory allocation, and calls to <code>runtime.UpdateMemStats</code> 1725 ensured that it was up to date. 1726 In Go 1, <code>runtime.MemStats</code> is a struct type, and code should use 1727 <a href="/pkg/runtime/#ReadMemStats"><code>runtime.ReadMemStats</code></a> 1728 to obtain the current statistics. 1729 </p> 1730 1731 <p> 1732 The package adds a new function, 1733 <a href="/pkg/runtime/#NumCPU"><code>runtime.NumCPU</code></a>, that returns the number of CPUs available 1734 for parallel execution, as reported by the operating system kernel. 1735 Its value can inform the setting of <code>GOMAXPROCS</code>. 1736 The <code>runtime.Cgocalls</code> and <code>runtime.Goroutines</code> functions 1737 have been renamed to <code>runtime.NumCgoCall</code> and <code>runtime.NumGoroutine</code>. 1738 </p> 1739 1740 <p> 1741 <em>Updating</em>: 1742 Running <code>go</code> <code>fix</code> will update code for the function renamings. 1743 Other code will need to be updated by hand. 1744 </p> 1745 1746 <h3 id="strconv">The strconv package</h3> 1747 1748 <p> 1749 In Go 1, the 1750 <a href="/pkg/strconv/"><code>strconv</code></a> 1751 package has been significantly reworked to make it more Go-like and less C-like, 1752 although <code>Atoi</code> lives on (it's similar to 1753 <code>int(ParseInt(x, 10, 0))</code>, as does 1754 <code>Itoa(x)</code> (<code>FormatInt(int64(x), 10)</code>). 1755 There are also new variants of some of the functions that append to byte slices rather than 1756 return strings, to allow control over allocation. 1757 </p> 1758 1759 <p> 1760 This table summarizes the renamings; see the 1761 <a href="/pkg/strconv/">package documentation</a> 1762 for full details. 1763 </p> 1764 1765 <table class="codetable" frame="border" summary="strconv renames"> 1766 <colgroup align="left" width="50%"></colgroup> 1767 <colgroup align="left" width="50%"></colgroup> 1768 <tr> 1769 <th align="left">Old call</th> 1770 <th align="left">New call</th> 1771 </tr> 1772 <tr> 1773 <td colspan="2"><hr></td> 1774 </tr> 1775 <tr><td>Atob(x)</td> <td>ParseBool(x)</td></tr> 1776 <tr> 1777 <td colspan="2"><hr></td> 1778 </tr> 1779 <tr><td>Atof32(x)</td> <td>ParseFloat(x, 32)§</td></tr> 1780 <tr><td>Atof64(x)</td> <td>ParseFloat(x, 64)</td></tr> 1781 <tr><td>AtofN(x, n)</td> <td>ParseFloat(x, n)</td></tr> 1782 <tr> 1783 <td colspan="2"><hr></td> 1784 </tr> 1785 <tr><td>Atoi(x)</td> <td>Atoi(x)</td></tr> 1786 <tr><td>Atoi(x)</td> <td>ParseInt(x, 10, 0)§</td></tr> 1787 <tr><td>Atoi64(x)</td> <td>ParseInt(x, 10, 64)</td></tr> 1788 <tr> 1789 <td colspan="2"><hr></td> 1790 </tr> 1791 <tr><td>Atoui(x)</td> <td>ParseUint(x, 10, 0)§</td></tr> 1792 <tr><td>Atoui64(x)</td> <td>ParseUint(x, 10, 64)</td></tr> 1793 <tr> 1794 <td colspan="2"><hr></td> 1795 </tr> 1796 <tr><td>Btoi64(x, b)</td> <td>ParseInt(x, b, 64)</td></tr> 1797 <tr><td>Btoui64(x, b)</td> <td>ParseUint(x, b, 64)</td></tr> 1798 <tr> 1799 <td colspan="2"><hr></td> 1800 </tr> 1801 <tr><td>Btoa(x)</td> <td>FormatBool(x)</td></tr> 1802 <tr> 1803 <td colspan="2"><hr></td> 1804 </tr> 1805 <tr><td>Ftoa32(x, f, p)</td> <td>FormatFloat(float64(x), f, p, 32)</td></tr> 1806 <tr><td>Ftoa64(x, f, p)</td> <td>FormatFloat(x, f, p, 64)</td></tr> 1807 <tr><td>FtoaN(x, f, p, n)</td> <td>FormatFloat(x, f, p, n)</td></tr> 1808 <tr> 1809 <td colspan="2"><hr></td> 1810 </tr> 1811 <tr><td>Itoa(x)</td> <td>Itoa(x)</td></tr> 1812 <tr><td>Itoa(x)</td> <td>FormatInt(int64(x), 10)</td></tr> 1813 <tr><td>Itoa64(x)</td> <td>FormatInt(x, 10)</td></tr> 1814 <tr> 1815 <td colspan="2"><hr></td> 1816 </tr> 1817 <tr><td>Itob(x, b)</td> <td>FormatInt(int64(x), b)</td></tr> 1818 <tr><td>Itob64(x, b)</td> <td>FormatInt(x, b)</td></tr> 1819 <tr> 1820 <td colspan="2"><hr></td> 1821 </tr> 1822 <tr><td>Uitoa(x)</td> <td>FormatUint(uint64(x), 10)</td></tr> 1823 <tr><td>Uitoa64(x)</td> <td>FormatUint(x, 10)</td></tr> 1824 <tr> 1825 <td colspan="2"><hr></td> 1826 </tr> 1827 <tr><td>Uitob(x, b)</td> <td>FormatUint(uint64(x), b)</td></tr> 1828 <tr><td>Uitob64(x, b)</td> <td>FormatUint(x, b)</td></tr> 1829 </table> 1830 1831 <p> 1832 <em>Updating</em>: 1833 Running <code>go</code> <code>fix</code> will update almost all code affected by the change. 1834 <br> 1835 § <code>Atoi</code> persists but <code>Atoui</code> and <code>Atof32</code> do not, so 1836 they may require 1837 a cast that must be added by hand; the <code>go</code> <code>fix</code> tool will warn about it. 1838 </p> 1839 1840 1841 <h3 id="templates">The template packages</h3> 1842 1843 <p> 1844 The <code>template</code> and <code>exp/template/html</code> packages have moved to 1845 <a href="/pkg/text/template/"><code>text/template</code></a> and 1846 <a href="/pkg/html/template/"><code>html/template</code></a>. 1847 More significant, the interface to these packages has been simplified. 1848 The template language is the same, but the concept of "template set" is gone 1849 and the functions and methods of the packages have changed accordingly, 1850 often by elimination. 1851 </p> 1852 1853 <p> 1854 Instead of sets, a <code>Template</code> object 1855 may contain multiple named template definitions, 1856 in effect constructing 1857 name spaces for template invocation. 1858 A template can invoke any other template associated with it, but only those 1859 templates associated with it. 1860 The simplest way to associate templates is to parse them together, something 1861 made easier with the new structure of the packages. 1862 </p> 1863 1864 <p> 1865 <em>Updating</em>: 1866 The imports will be updated by fix tool. 1867 Single-template uses will be otherwise be largely unaffected. 1868 Code that uses multiple templates in concert will need to be updated by hand. 1869 The <a href="/pkg/text/template/#pkg-examples">examples</a> in 1870 the documentation for <code>text/template</code> can provide guidance. 1871 </p> 1872 1873 <h3 id="testing">The testing package</h3> 1874 1875 <p> 1876 The testing package has a type, <code>B</code>, passed as an argument to benchmark functions. 1877 In Go 1, <code>B</code> has new methods, analogous to those of <code>T</code>, enabling 1878 logging and failure reporting. 1879 </p> 1880 1881 {{code "/doc/progs/go1.go" `/func.*Benchmark/` `/^}/`}} 1882 1883 <p> 1884 <em>Updating</em>: 1885 Existing code is unaffected, although benchmarks that use <code>println</code> 1886 or <code>panic</code> should be updated to use the new methods. 1887 </p> 1888 1889 <h3 id="testing_script">The testing/script package</h3> 1890 1891 <p> 1892 The testing/script package has been deleted. It was a dreg. 1893 </p> 1894 1895 <p> 1896 <em>Updating</em>: 1897 No code is likely to be affected. 1898 </p> 1899 1900 <h3 id="unsafe">The unsafe package</h3> 1901 1902 <p> 1903 In Go 1, the functions 1904 <code>unsafe.Typeof</code>, <code>unsafe.Reflect</code>, 1905 <code>unsafe.Unreflect</code>, <code>unsafe.New</code>, and 1906 <code>unsafe.NewArray</code> have been removed; 1907 they duplicated safer functionality provided by 1908 package <a href="/pkg/reflect/"><code>reflect</code></a>. 1909 </p> 1910 1911 <p> 1912 <em>Updating</em>: 1913 Code using these functions must be rewritten to use 1914 package <a href="/pkg/reflect/"><code>reflect</code></a>. 1915 The changes to <a href="//golang.org/change/2646dc956207">encoding/gob</a> and the <a href="//code.google.com/p/goprotobuf/source/detail?r=5340ad310031">protocol buffer library</a> 1916 may be helpful as examples. 1917 </p> 1918 1919 <h3 id="url">The url package</h3> 1920 1921 <p> 1922 In Go 1 several fields from the <a href="/pkg/net/url/#URL"><code>url.URL</code></a> type 1923 were removed or replaced. 1924 </p> 1925 1926 <p> 1927 The <a href="/pkg/net/url/#URL.String"><code>String</code></a> method now 1928 predictably rebuilds an encoded URL string using all of <code>URL</code>'s 1929 fields as necessary. The resulting string will also no longer have 1930 passwords escaped. 1931 </p> 1932 1933 <p> 1934 The <code>Raw</code> field has been removed. In most cases the <code>String</code> 1935 method may be used in its place. 1936 </p> 1937 1938 <p> 1939 The old <code>RawUserinfo</code> field is replaced by the <code>User</code> 1940 field, of type <a href="/pkg/net/url/#Userinfo"><code>*net.Userinfo</code></a>. 1941 Values of this type may be created using the new <a href="/pkg/net/url/#User"><code>net.User</code></a> 1942 and <a href="/pkg/net/url/#UserPassword"><code>net.UserPassword</code></a> 1943 functions. The <code>EscapeUserinfo</code> and <code>UnescapeUserinfo</code> 1944 functions are also gone. 1945 </p> 1946 1947 <p> 1948 The <code>RawAuthority</code> field has been removed. The same information is 1949 available in the <code>Host</code> and <code>User</code> fields. 1950 </p> 1951 1952 <p> 1953 The <code>RawPath</code> field and the <code>EncodedPath</code> method have 1954 been removed. The path information in rooted URLs (with a slash following the 1955 schema) is now available only in decoded form in the <code>Path</code> field. 1956 Occasionally, the encoded data may be required to obtain information that 1957 was lost in the decoding process. These cases must be handled by accessing 1958 the data the URL was built from. 1959 </p> 1960 1961 <p> 1962 URLs with non-rooted paths, such as <code>"mailto:dev@golang.org?subject=Hi"</code>, 1963 are also handled differently. The <code>OpaquePath</code> boolean field has been 1964 removed and a new <code>Opaque</code> string field introduced to hold the encoded 1965 path for such URLs. In Go 1, the cited URL parses as: 1966 </p> 1967 1968 <pre> 1969 URL{ 1970 Scheme: "mailto", 1971 Opaque: "dev@golang.org", 1972 RawQuery: "subject=Hi", 1973 } 1974 </pre> 1975 1976 <p> 1977 A new <a href="/pkg/net/url/#URL.RequestURI"><code>RequestURI</code></a> method was 1978 added to <code>URL</code>. 1979 </p> 1980 1981 <p> 1982 The <code>ParseWithReference</code> function has been renamed to <code>ParseWithFragment</code>. 1983 </p> 1984 1985 <p> 1986 <em>Updating</em>: 1987 Code that uses the old fields will fail to compile and must be updated by hand. 1988 The semantic changes make it difficult for the fix tool to update automatically. 1989 </p> 1990 1991 <h2 id="cmd_go">The go command</h2> 1992 1993 <p> 1994 Go 1 introduces the <a href="/cmd/go/">go command</a>, a tool for fetching, 1995 building, and installing Go packages and commands. The <code>go</code> command 1996 does away with makefiles, instead using Go source code to find dependencies and 1997 determine build conditions. Most existing Go programs will no longer require 1998 makefiles to be built. 1999 </p> 2000 2001 <p> 2002 See <a href="/doc/code.html">How to Write Go Code</a> for a primer on the 2003 <code>go</code> command and the <a href="/cmd/go/">go command documentation</a> 2004 for the full details. 2005 </p> 2006 2007 <p> 2008 <em>Updating</em>: 2009 Projects that depend on the Go project's old makefile-based build 2010 infrastructure (<code>Make.pkg</code>, <code>Make.cmd</code>, and so on) should 2011 switch to using the <code>go</code> command for building Go code and, if 2012 necessary, rewrite their makefiles to perform any auxiliary build tasks. 2013 </p> 2014 2015 <h2 id="cmd_cgo">The cgo command</h2> 2016 2017 <p> 2018 In Go 1, the <a href="/cmd/cgo">cgo command</a> 2019 uses a different <code>_cgo_export.h</code> 2020 file, which is generated for packages containing <code>//export</code> lines. 2021 The <code>_cgo_export.h</code> file now begins with the C preamble comment, 2022 so that exported function definitions can use types defined there. 2023 This has the effect of compiling the preamble multiple times, so a 2024 package using <code>//export</code> must not put function definitions 2025 or variable initializations in the C preamble. 2026 </p> 2027 2028 <h2 id="releases">Packaged releases</h2> 2029 2030 <p> 2031 One of the most significant changes associated with Go 1 is the availability 2032 of prepackaged, downloadable distributions. 2033 They are available for many combinations of architecture and operating system 2034 (including Windows) and the list will grow. 2035 Installation details are described on the 2036 <a href="/doc/install">Getting Started</a> page, while 2037 the distributions themselves are listed on the 2038 <a href="https://golang.org/dl/">downloads page</a>.