05 Go 1.5 Release Notes
Go 1.5 Release Notes
Introduction to Go 1.5
The latest Go release, version 1.5, is a significant release, including major architectural changes to the implementation. Despite that, we expect almost all Go programs to continue to compile and run as before, because the release still maintains the Go 1 promise of compatibility.
The biggest developments in the implementation are:
- The compiler and runtime are now written entirely in Go (with a little assembler). C is no longer involved in the implementation, and so the C compiler that was once necessary for building the distribution is gone.
- The garbage collector is now concurrent and provides dramatically lower pause times by running, when possible, in parallel with other goroutines.
- By default, Go programs run with
GOMAXPROCS
set to the number of cores available; in prior releases it defaulted to 1. - Support for internal packages is now provided for all repositories, not just the Go core.
- The
go
command now provides experimental support for "vendoring" external dependencies. - A new
go tool trace
command supports fine-grained tracing of program execution. - A new
go doc
command (distinct fromgodoc
) is customized for command-line use.
These and a number of other changes to the implementation and tools are discussed below.
The release also contains one small language change involving map literals.
Finally, the timing of the release strays from the usual six-month interval, both to provide more time to prepare this major release and to shift the schedule thereafter to time the release dates more conveniently.
Changes to the language
Map literals
Due to an oversight, the rule that allowed the element type to be elided from slice literals was not applied to map keys. This has been corrected in Go 1.5. An example will make this clear. As of Go 1.5, this map literal,
m := map[Point]string{
Point{29.935523, 52.891566}: "Persepolis",
Point{-25.352594, 131.034361}: "Uluru",
Point{37.422455, -122.084306}: "Googleplex",
}
may be written as follows, without the Point
type listed explicitly:
m := map[Point]string{
{29.935523, 52.891566}: "Persepolis",
{-25.352594, 131.034361}: "Uluru",
{37.422455, -122.084306}: "Googleplex",
}
The Implementation
No more C
The compiler and runtime are now implemented in Go and assembler, without C. The only C source left in the tree is related to testing or to cgo
. There was a C compiler in the tree in 1.4 and earlier. It was used to build the runtime; a custom compiler was necessary in part to guarantee the C code would work with the stack management of goroutines. Since the runtime is in Go now, there is no need for this C compiler and it is gone. Details of the process to eliminate C are discussed elsewhere.
The conversion from C was done with the help of custom tools created for the job. Most important, the compiler was actually moved by automatic translation of the C code into Go. It is in effect the same program in a different language. It is not a new implementation of the compiler so we expect the process will not have introduced new compiler bugs. An overview of this process is available in the slides for this presentation.
Compiler and tools
Independent of but encouraged by the move to Go, the names of the tools have changed. The old names 6g
, 8g
and so on are gone; instead there is just one binary, accessible as go
tool
compile
, that compiles Go source into binaries suitable for the architecture and operating system specified by $GOARCH
and $GOOS
. Similarly, there is now one linker (go
tool
link
) and one assembler (go
tool
asm
). The linker was translated automatically from the old C implementation, but the assembler is a new native Go implementation discussed in more detail below.
Similar to the drop of the names 6g
, 8g
, and so on, the output of the compiler and assembler are now given a plain .o
suffix rather than .8
, .6
, etc.
Garbage collector
The garbage collector has been re-engineered for 1.5 as part of the development outlined in the design document. Expected latencies are much lower than with the collector in prior releases, through a combination of advanced algorithms, better scheduling of the collector, and running more of the collection in parallel with the user program. The "stop the world" phase of the collector will almost always be under 10 milliseconds and usually much less.
For systems that benefit from low latency, such as user-responsive web sites, the drop in expected latency with the new collector may be important.
Details of the new collector were presented in a talk at GopherCon 2015.
Runtime
In Go 1.5, the order in which goroutines are scheduled has been changed. The properties of the scheduler were never defined by the language, but programs that depend on the scheduling order may be broken by this change. We have seen a few (erroneous) programs affected by this change. If you have programs that implicitly depend on the scheduling order, you will need to update them.
Another potentially breaking change is that the runtime now sets the default number of threads to run simultaneously, defined by GOMAXPROCS
, to the number of cores available on the CPU. In prior releases the default was 1. Programs that do not expect to run with multiple cores may break inadvertently. They can be updated by removing the restriction or by setting GOMAXPROCS
explicitly. For a more detailed discussion of this change, see the design document.
Build
Now that the Go compiler and runtime are implemented in Go, a Go compiler must be available to compile the distribution from source. Thus, to build the Go core, a working Go distribution must already be in place. (Go programmers who do not work on the core are unaffected by this change.) Any Go 1.4 or later distribution (including gccgo
) will serve. For details, see the design document.
Ports
Due mostly to the industry's move away from the 32-bit x86 architecture, the set of binary downloads provided is reduced in 1.5. A distribution for the OS X operating system is provided only for the amd64
architecture, not 386
. Similarly, the ports for Snow Leopard (Apple OS X 10.6) still work but are no longer released as a download or maintained since Apple no longer maintains that version of the operating system. Also, the dragonfly/386
port is no longer supported at all because DragonflyBSD itself no longer supports the 32-bit 386 architecture.
There are however several new ports available to be built from source. These include darwin/arm
and darwin/arm64
. The new port linux/arm64
is mostly in place, but cgo
is only supported using external linking.
Also available as experiments are ppc64
and ppc64le
(64-bit PowerPC, big- and little-endian). Both these ports support cgo
but only with internal linking.
On FreeBSD, Go 1.5 requires FreeBSD 8-STABLE+ because of its new use of the SYSCALL
instruction.
On NaCl, Go 1.5 requires SDK version pepper-41. Later pepper versions are not compatible due to the removal of the sRPC subsystem from the NaCl runtime.
On Darwin, the use of the system X.509 certificate interface can be disabled with the ios
build tag.
The Solaris port now has full support for cgo and the packages net
and crypto/x509
, as well as a number of other fixes and improvements.
Tools
Translating
As part of the process to eliminate C from the tree, the compiler and linker were translated from C to Go. It was a genuine (machine assisted) translation, so the new programs are essentially the old programs translated rather than new ones with new bugs. We are confident the translation process has introduced few if any new bugs, and in fact uncovered a number of previously unknown bugs, now fixed.
The assembler is a new program, however; it is described below.
Renaming
The suites of programs that were the compilers (6g
, 8g
, etc.), the assemblers (6a
, 8a
, etc.), and the linkers (6l
, 8l
, etc.) have each been consolidated into a single tool that is configured by the environment variables GOOS
and GOARCH
. The old names are gone; the new tools are available through the go
tool
mechanism as go tool compile
, go tool asm
, and go tool link
. Also, the file suffixes .6
, .8
, etc. for the intermediate object files are also gone; now they are just plain .o
files.
For example, to build and link a program on amd64 for Darwin using the tools directly, rather than through go build
, one would run:
$ export GOOS=darwin GOARCH=amd64
$ go tool compile program.go
$ go tool link program.o
Moving
Because the go/types
package has now moved into the main repository (see below), the vet
and cover
tools have also been moved. They are no longer maintained in the external golang.org/x/tools
repository, although (deprecated) source still resides there for compatibility with old releases.
Compiler
As described above, the compiler in Go 1.5 is a single Go program, translated from the old C source, that replaces 6g
, 8g
, and so on. Its target is configured by the environment variables GOOS
and GOARCH
.
The 1.5 compiler is mostly equivalent to the old, but some internal details have changed. One significant change is that evaluation of constants now uses the math/big
package rather than a custom (and less well tested) implementation of high precision arithmetic. We do not expect this to affect the results.
For the amd64 architecture only, the compiler has a new option, -dynlink
, that assists dynamic linking by supporting references to Go symbols defined in external shared libraries.
Assembler
Like the compiler and linker, the assembler in Go 1.5 is a single program that replaces the suite of assemblers (6a
, 8a
, etc.) and the environment variables GOARCH
and GOOS
configure the architecture and operating system. Unlike the other programs, the assembler is a wholly new program written in Go.
The new assembler is very nearly compatible with the previous ones, but there are a few changes that may affect some assembler source files. See the updated assembler guide for more specific information about these changes. In summary:
First, the expression evaluation used for constants is a little different. It now uses unsigned 64-bit arithmetic and the precedence of operators (+
, -
, <<
, etc.) comes from Go, not C. We expect these changes to affect very few programs but manual verification may be required.
Perhaps more important is that on machines where SP
or PC
is only an alias for a numbered register, such as R13
for the stack pointer and R15
for the hardware program counter on ARM, a reference to such a register that does not include a symbol is now illegal. For example, SP
and 4(SP)
are illegal but sym+4(SP)
is fine. On such machines, to refer to the hardware register use its true R
name.
One minor change is that some of the old assemblers permitted the notation
constant=value
to define a named constant. Since this is always possible to do with the traditional C-like #define
notation, which is still supported (the assembler includes an implementation of a simplified C preprocessor), the feature was removed.
Linker
The linker in Go 1.5 is now one Go program, that replaces 6l
, 8l
, etc. Its operating system and instruction set are specified by the environment variables GOOS
and GOARCH
.
There are several other changes. The most significant is the addition of a -buildmode
option that expands the style of linking; it now supports situations such as building shared libraries and allowing other languages to call into Go libraries. Some of these were outlined in a design document. For a list of the available build modes and their use, run
$ go help buildmode
Another minor change is that the linker no longer records build time stamps in the header of Windows executables. Also, although this may be fixed, Windows cgo executables are missing some DWARF information.
Finally, the -X
flag, which takes two arguments, as in
-X importpath.name value
now also accepts a more common Go flag style with a single argument that is itself a name=value
pair:
-X importpath.name=value
Although the old syntax still works, it is recommended that uses of this flag in scripts and the like be updated to the new form.
Go command
The go
command's basic operation is unchanged, but there are a number of changes worth noting.
The previous release introduced the idea of a directory internal to a package being unimportable through the go
command. In 1.4, it was tested with the introduction of some internal elements in the core repository. As suggested in the design document, that change is now being made available to all repositories. The rules are explained in the design document, but in summary any package in or under a directory named internal
may be imported by packages rooted in the same subtree. Existing packages with directory elements named internal
may be inadvertently broken by this change, which was why it was advertised in the last release.
Another change in how packages are handled is the experimental addition of support for "vendoring". For details, see the documentation for the go
command and the design document.
There have also been several minor changes. Read the documentation for full details.
- SWIG support has been updated such that
.swig
and.swigcxx
now require SWIG 3.0.6 or later. - The
install
subcommand now removes the binary created by thebuild
subcommand in the source directory, if present, to avoid problems having two binaries present in the tree. - The
std
(standard library) wildcard package name now excludes commands. A newcmd
wildcard covers the commands. - A new
-asmflags
build option sets flags to pass to the assembler. However, the-ccflags
build option has been dropped; it was specific to the old, now deleted C compiler . - A new
-buildmode
build option sets the build mode, described above. - A new
-pkgdir
build option sets the location of installed package archives, to help isolate custom builds. - A new
-toolexec
build option allows substitution of a different command to invoke the compiler and so on. This acts as a custom replacement forgo tool
. - The
test
subcommand now has a-count
flag to specify how many times to run each test and benchmark. Thetesting
package does the work here, through the-test.count
flag. - The
generate
subcommand has a couple of new features. The-run
option specifies a regular expression to select which directives to execute; this was proposed but never implemented in 1.4. The executing pattern now has access to two new environment variables:$GOLINE
returns the source line number of the directive and$DOLLAR
expands to a dollar sign. - The
get
subcommand now has a-insecure
flag that must be enabled if fetching from an insecure repository, one that does not encrypt the connection.
Go vet command
The go tool vet
command now does more thorough validation of struct tags.
Trace command
A new tool is available for dynamic execution tracing of Go programs. The usage is analogous to how the test coverage tool works. Generation of traces is integrated into go test
, and then a separate execution of the tracing tool itself analyzes the results:
$ go test -trace=trace.out path/to/package
$ go tool trace [flags] pkg.test trace.out
The flags enable the output to be displayed in a browser window. For details, run go tool trace -help
. There is also a description of the tracing facility in this talk from GopherCon 2015.
Go doc command
A few releases back, the go doc
command was deleted as being unnecessary. One could always run "godoc .
" instead. The 1.5 release introduces a new go doc
command with a more convenient command-line interface than godoc
's. It is designed for command-line usage specifically, and provides a more compact and focused presentation of the documentation for a package or its elements, according to the invocation. It also provides case-insensitive matching and support for showing the documentation for unexported symbols. For details run "go help doc
".
Cgo
When parsing #cgo
lines, the invocation ${SRCDIR}
is now expanded into the path to the source directory. This allows options to be passed to the compiler and linker that involve file paths relative to the source code directory. Without the expansion the paths would be invalid when the current working directory changes.
Solaris now has full cgo support.
On Windows, cgo now uses external linking by default.
When a C struct ends with a zero-sized field, but the struct itself is not zero-sized, Go code can no longer refer to the zero-sized field. Any such references will have to be rewritten.
Performance
As always, the changes are so general and varied that precise statements about performance are difficult to make. The changes are even broader ranging than usual in this release, which includes a new garbage collector and a conversion of the runtime to Go. Some programs may run faster, some slower. On average the programs in the Go 1 benchmark suite run a few percent faster in Go 1.5 than they did in Go 1.4, while as mentioned above the garbage collector's pauses are dramatically shorter, and almost always under 10 milliseconds.
Builds in Go 1.5 will be slower by a factor of about two. The automatic translation of the compiler and linker from C to Go resulted in unidiomatic Go code that performs poorly compared to well-written Go. Analysis tools and refactoring helped to improve the code, but much remains to be done. Further profiling and optimization will continue in Go 1.6 and future releases. For more details, see these slides and associated video.
Core library
Flag
The flag package's PrintDefaults
function, and method on FlagSet
, have been modified to create nicer usage messages. The format has been changed to be more human-friendly and in the usage messages a word quoted with `backquotes` is taken to be the name of the flag's operand to display in the usage message. For instance, a flag created with the invocation,
cpuFlag = flag.Int("cpu", 1, "run `N` processes in parallel")
will show the help message,
-cpu N
run N processes in parallel (default 1)
Also, the default is now listed only when it is not the zero value for the type.
Floats in math/big
The math/big
package has a new, fundamental data type, Float
, which implements arbitrary-precision floating-point numbers. A Float
value is represented by a boolean sign, a variable-length mantissa, and a 32-bit fixed-size signed exponent. The precision of a Float
(the mantissa size in bits) can be specified explicitly or is otherwise determined by the first operation that creates the value. Once created, the size of a Float
's mantissa may be modified with the SetPrec
method. Floats
support the concept of infinities, such as are created by overflow, but values that would lead to the equivalent of IEEE 754 NaNs trigger a panic. Float
operations support all IEEE-754 rounding modes. When the precision is set to 24 (53) bits, operations that stay within the range of normalized float32
(float64
) values produce the same results as the corresponding IEEE-754 arithmetic on those values.
Go types
The go/types
package up to now has been maintained in the golang.org/x
repository; as of Go 1.5 it has been relocated to the main repository. The code at the old location is now deprecated. There is also a modest API change in the package, discussed below.
Associated with this move, the go/constant
package also moved to the main repository; it was golang.org/x/tools/exact
before. The go/importer
package also moved to the main repository, as well as some tools described above.
Net
The DNS resolver in the net package has almost always used cgo
to access the system interface. A change in Go 1.5 means that on most Unix systems DNS resolution will no longer require cgo
, which simplifies execution on those platforms. Now, if the system's networking configuration permits, the native Go resolver will suffice. The important effect of this change is that each DNS resolution occupies a goroutine rather than a thread, so a program with multiple outstanding DNS requests will consume fewer operating system resources.
The decision of how to run the resolver applies at run time, not build time. The netgo
build tag that has been used to enforce the use of the Go resolver is no longer necessary, although it still works. A new netcgo
build tag forces the use of the cgo
resolver at build time. To force cgo
resolution at run time set GODEBUG=netdns=cgo
in the environment. More debug options are documented here.
This change applies to Unix systems only. Windows, Mac OS X, and Plan 9 systems behave as before.
Reflect
The reflect
package has two new functions: ArrayOf
and FuncOf
. These functions, analogous to the extantSliceOf
function, create new types at runtime to describe arrays and functions.
Hardening
Several dozen bugs were found in the standard library through randomized testing with the go-fuzz
tool. Bugs were fixed in the archive/tar
, archive/zip
, compress/flate
, encoding/gob
, fmt
, html/template
, image/gif
,image/jpeg
, image/png
, and text/template
, packages. The fixes harden the implementation against incorrect and malicious inputs.
Minor changes to the library
- The
archive/zip
package'sWriter
type now has aSetOffset
method to specify the location within the output stream at which to write the archive. - The
Reader
in thebufio
package now has aDiscard
method to discard data from the input. - In the
bytes
package, theBuffer
type now has aCap
method that reports the number of bytes allocated within the buffer. Similarly, in both thebytes
andstrings
packages, theReader
type now has aSize
method that reports the original length of the underlying slice or string. - Both the
bytes
andstrings
packages also now have aLastIndexByte
function that locates the rightmost byte with that value in the argument. - The
crypto
package has a new interface,Decrypter
, that abstracts the behavior of a private key used in asymmetric decryption. - In the
crypto/cipher
package, the documentation for theStream
interface has been clarified regarding the behavior when the source and destination are different lengths. If the destination is shorter than the source, the method will panic. This is not a change in the implementation, only the documentation. - Also in the
crypto/cipher
package, there is now support for nonce lengths other than 96 bytes in AES's Galois/Counter mode (GCM), which some protocols require. - In the
crypto/elliptic
package, there is now aName
field in theCurveParams
struct, and the curves implemented in the package have been given names. These names provide a safer way to select a curve, as opposed to selecting its bit size, for cryptographic systems that are curve-dependent. - Also in the
crypto/elliptic
package, theUnmarshal
function now verifies that the point is actually on the curve. (If it is not, the function returns nils). This change guards against certain attacks. - The
crypto/sha512
package now has support for the two truncated versions of the SHA-512 hash algorithm, SHA-512/224 and SHA-512/256. - The
crypto/tls
package minimum protocol version now defaults to TLS 1.0. The old default, SSLv3, is still available throughConfig
if needed. - The
crypto/tls
package now supports Signed Certificate Timestamps (SCTs) as specified in RFC 6962. The server serves them if they are listed in theCertificate
struct, and the client requests them and exposes them, if present, in itsConnectionState
struct. - The stapled OCSP response to a
crypto/tls
client connection, previously only available via theOCSPResponse
method, is now exposed in theConnectionState
struct. - The
crypto/tls
server implementation will now always call theGetCertificate
function in theConfig
struct to select a certificate for the connection when none is supplied. - Finally, the session ticket keys in the
crypto/tls
package can now be changed while the server is running. This is done through the newSetSessionTicketKeys
method of theConfig
type. - In the
crypto/x509
package, wildcards are now accepted only in the leftmost label as defined in the specification. - Also in the
crypto/x509
package, the handling of unknown critical extensions has been changed. They used to cause parse errors but now they are parsed and caused errors only inVerify
. The new fieldUnhandledCriticalExtensions
ofCertificate
records these extensions. - The
DB
type of thedatabase/sql
package now has aStats
method to retrieve database statistics. - The
debug/dwarf
package has extensive additions to better support DWARF version 4. See for example the definition of the new typeClass
. - The
debug/dwarf
package also now supports decoding of DWARF line tables. - The
debug/elf
package now has support for the 64-bit PowerPC architecture. - The
encoding/base64
package now supports unpadded encodings through two new encoding variables,RawStdEncoding
andRawURLEncoding
. - The
encoding/json
package now returns anUnmarshalTypeError
if a JSON value is not appropriate for the target variable or component to which it is being unmarshaled. - The
encoding/json
'sDecoder
type has a new method that provides a streaming interface for decoding a JSON document:Token
. It also interoperates with the existing functionality ofDecode
, which will continue a decode operation already started withDecoder.Token
. - The
flag
package has a new function,UnquoteUsage
, to assist in the creation of usage messages using the new convention described above. - In the
fmt
package, a value of typeValue
now prints what it holds, rather than use thereflect.Value
'sStringer
method, which produces things like<int Value>
. - The
EmptyStmt
type in thego/ast
package now has a booleanImplicit
field that records whether the semicolon was implicitly added or was present in the source. - For forward compatibility the
go/build
package reservesGOARCH
values for a number of architectures that Go might support one day. This is not a promise that it will. Also, thePackage
struct now has aPkgTargetRoot
field that stores the architecture-dependent root directory in which to install, if known. - The (newly migrated)
go/types
package allows one to control the prefix attached to package-level names using the newQualifier
function type as an argument to several functions. This is an API change for the package, but since it is new to the core, it is not breaking the Go 1 compatibility rules since code that uses the package must explicitly ask for it at its new location. To update, rungo fix
on your package. - In the
image
package, theRectangle
type now implements theImage
interface, so aRectangle
can serve as a mask when drawing. - Also in the
image
package, to assist in the handling of some JPEG images, there is now support for 4:1:1 and 4:1:0 YCbCr subsampling and basic CMYK support, represented by the newimage.CMYK
struct. - The
image/color
package adds basic CMYK support, through the newCMYK
struct, theCMYKModel
color model, and theCMYKToRGB
function, as needed by some JPEG images. - Also in the
image/color
package, the conversion of aYCbCr
value toRGBA
has become more precise. Previously, the low 8 bits were just an echo of the high 8 bits; now they contain more accurate information. Because of the echo property of the old code, the operationuint8(r)
to extract an 8-bit red value worked, but is incorrect. In Go 1.5, that operation may yield a different value. The correct code is, and always was, to select the high 8 bits:uint8(r>>8)
. Incidentally, theimage/draw
package provides better support for such conversions; see this blog post for more information. - Finally, as of Go 1.5 the closest match check in
Index
now honors the alpha channel. - The
image/gif
package includes a couple of generalizations. A multiple-frame GIF file can now have an overall bounds different from all the contained single frames' bounds. Also, theGIF
struct now has aDisposal
field that specifies the disposal method for each frame. - The
io
package adds aCopyBuffer
function that is likeCopy
but uses a caller-provided buffer, permitting control of allocation and buffer size. - The
log
package has a newLUTC
flag that causes time stamps to be printed in the UTC time zone. It also adds aSetOutput
method for user-created loggers. - In Go 1.4,
Max
was not detecting all possible NaN bit patterns. This is fixed in Go 1.5, so programs that usemath.Max
on data including NaNs may behave differently, but now correctly according to the IEEE754 definition of NaNs. - The
math/big
package adds a newJacobi
function for integers and a newModSqrt
method for theInt
type. - The mime package adds a new
WordDecoder
type to decode MIME headers containing RFC 204-encoded words. It also providesBEncoding
andQEncoding
as implementations of the encoding schemes of RFC 2045 and RFC 2047. - The
mime
package also adds anExtensionsByType
function that returns the MIME extensions know to be associated with a given MIME type. - There is a new
mime/quotedprintable
package that implements the quoted-printable encoding defined by RFC 2045. - The
net
package will nowDial
hostnames by trying each IP address in order until one succeeds. TheDialer.DualStack
mode now implements Happy Eyeballs (RFC 6555) by giving the first address family a 300ms head start; this value can be overridden by the newDialer.FallbackDelay
. - A number of inconsistencies in the types returned by errors in the
net
package have been tidied up. Most now return anOpError
value with more information than before. Also, theOpError
type now includes aSource
field that holds the local network address. - The
net/http
package now has support for setting trailers from a serverHandler
. For details, see the documentation forResponseWriter
. - There is a new method to cancel a
net/http
Request
by setting the newRequest.Cancel
field. It is supported byhttp.Transport
. TheCancel
field's type is compatible with thecontext.Context.Done
return value. - Also in the
net/http
package, there is code to ignore the zeroTime
value in theServeContent
function. As of Go 1.5, it now also ignores a time value equal to the Unix epoch. - The
net/http/fcgi
package exports two new errors,ErrConnClosed
andErrRequestAborted
, to report the corresponding error conditions. - The
net/http/cgi
package had a bug that mishandled the values of the environment variablesREMOTE_ADDR
andREMOTE_HOST
. This has been fixed. Also, starting with Go 1.5 the package sets theREMOTE_PORT
variable. - The
net/mail
package adds anAddressParser
type that can parse mail addresses. - The
net/smtp
package now has aTLSConnectionState
accessor to theClient
type that returns the client's TLS state. - The
os
package has a newLookupEnv
function that is similar toGetenv
but can distinguish between an empty environment variable and a missing one. - The
os/signal
package adds newIgnore
andReset
functions. - The
runtime
,runtime/trace
, andnet/http/pprof
packages each have new functions to support the tracing facilities described above:ReadTrace
,StartTrace
,StopTrace
,Start
,Stop
, andTrace
. See the respective documentation for details. - The
runtime/pprof
package by default now includes overall memory statistics in all memory profiles. - The
strings
package has a newCompare
function. This is present to provide symmetry with thebytes
package but is otherwise unnecessary as strings support comparison natively. - The
WaitGroup
implementation in packagesync
now diagnoses code that races a call toAdd
against a return fromWait
. If it detects this condition, the implementation panics. - In the
syscall
package, the LinuxSysProcAttr
struct now has aGidMappingsEnableSetgroups
field, made necessary by security changes in Linux 3.19. On all Unix systems, the struct also has newForeground
andPgid
fields to provide more control when exec'ing. On Darwin, there is now aSyscall9
function to support calls with too many arguments. - The
testing/quick
will now generatenil
values for pointer types, making it possible to use with recursive data structures. Also, the package now supports generation of array types. - In the
text/template
andhtml/template
packages, integer constants too large to be represented as a Go integer now trigger a parse error. Before, they were silently converted to floating point, losing precision. - Also in the
text/template
andhtml/template
packages, a newOption
method allows customization of the behavior of the template during execution. The sole implemented option allows control over how a missing key is handled when indexing a map. The default, which can now be overridden, is as before: to continue with an invalid value. - The
time
package'sTime
type has a new methodAppendFormat
, which can be used to avoid allocation when printing a time value. - The
unicode
package and associated support throughout the system has been upgraded from version 7.0 toUnicode 8.0.
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