Go (programming language)
Paradigm | Multi-paradigm: concurrent, functional,[1] imperative, object-oriented[2] |
---|---|
Designed by | Robert Griesemer Rob Pike Ken Thompson |
Developer | The Go Authors[3] |
First appeared | November 10, 2009 |
Stable release | 1.11.4
/ December 14, 2018[4] |
Typing discipline | Inferred, static, strong, structural[5][6] |
Implementation language | Go, assembly language (gc); C++ (gccgo) |
OS | DragonFly BSD, FreeBSD, Linux, macOS, NetBSD, OpenBSD,[7] Plan 9,[8] Solaris, Windows |
License | BSD-style[3] + patent grant[9] |
Filename extensions | .go |
Website | golang |
Major implementations | |
gc, gccgo | |
Influenced by | |
Alef, APL,[10] BCPL,[10] C, CSP, Limbo, Modula, Newsqueak, Oberon, occam, Pascal,[11] Smalltalk[12] | |
Influenced | |
Crystal |
Go (often referred to as Golang[13]) is a statically typed, compiled programming language designed at Google[14] by Robert Griesemer, Rob Pike, and Ken Thompson.[11] Go is syntactically similar to C, but with the added benefits of memory safety, garbage collection, structural typing,[5] and CSP-style concurrency.[15]
There are two major implementations:
- Google's self-hosting[16] compiler toolchain targeting multiple operating systems, mobile devices,[17] and WebAssembly.[18]
- gccgo, a GCC frontend.[19][20]
A third compiler, GopherJS,[21] compiles Go to JavaScript for front-end web development.
Contents
History[edit]
Go was designed at Google in 2007 to improve programming productivity in an era of multicore, networked machines and extremely large codebases.[22] The designers wanted to address criticism of other languages in use at Google, while retaining their useful characteristics:[23]
- Static typing and run-time efficiency (like C++ or Java)
- Readability and usability (like Python or JavaScript)[24]
- High-performance networking and multiprocessing
The designers were primarily motivated by their shared dislike of C++.[25][26][27]
Go was publicly announced in November 2009,[28] and version 1.0 was released in March 2012.[29][30] Go is widely used in production at Google[31] and in many other organizations and open-source projects.
In April 2018, the original logo was replaced with a stylized GO slanting right with trailing streamlines. However, the gopher mascot remained the same.[32]
In August 2018, the Go principal contributors published two ″draft designs″ for new language features, Generics and Error Handling, and asked Go users to submit feedback on them.[33][34] Lack of support for generic programming and the verbosity of error handling in Go 1.x had drawn considerable criticism.
Version history[edit]
Go 1 guarantees compatibility[35] for the language specification and major parts of the standard library. All versions up to the current Go 1.11 release[36] have maintained this promise.
Each major Go release is supported until there are two newer major releases.[37]
Major version | Initial release date | Language changes[38] | Other changes |
---|---|---|---|
1 - 1.0.3 | 2012/03/28 | Initial release | |
1.1 - 1.1.2 | 2013/05/13 |
|
|
1.2 - 1.2.2 | 2013/12/01 |
|
|
1.3 - 1.3.3 | 2014/06/18 | There are no language changes in this release. |
|
1.4 - 1.4.3 | 2014/12/10 |
|
|
1.5 - 1.5.4 | 2015/08/19 |
|
|
1.6 - 1.6.4 | 2016/02/17 | There are no language changes in this release. |
|
1.7 - 1.7.6 | 2016/08/15 |
|
|
1.8 - 1.8.7 | 2017/02/16 |
|
|
1.9 - 1.9.7 | 2017/08/24 |
|
|
1.10 - 1.10.7 | 2018/02/16 |
|
|
1.11 - 1.11.4 | 2018/08/24 | There are no changes to the language specification. |
|
Design[edit]
Go is recognizably in the tradition of C, but makes many changes to improve brevity, simplicity, and safety. The language consists of:
- A syntax and environment adopting patterns more common in dynamic languages:[41]
- Optional concise variable declaration and initialization through type inference (
x := 0
notint x = 0;
orvar x = 0;
). - Fast compilation times.[42]
- Remote package management (
go get
)[43] and online package documentation.[44]
- Optional concise variable declaration and initialization through type inference (
- Distinctive approaches to particular problems:
- Built-in concurrency primitives: light-weight processes (goroutines), channels, and the
select
statement. - An interface system in place of virtual inheritance, and type embedding instead of non-virtual inheritance.
- A toolchain that, by default, produces statically linked native binaries without external dependencies.
- Built-in concurrency primitives: light-weight processes (goroutines), channels, and the
- A desire to keep the language specification simple enough to hold in a programmer's head,[45] in part by omitting features which are common in similar languages.
Syntax[edit]
Go's syntax includes changes from C aimed at keeping code concise and readable. A combined declaration/initialization operator was introduced that allows the programmer to write i := 3
or s := "Hello, world!"
, without specifying the types of variables. This contrasts with C's int i = 3;
and const char *s = "Hello, world!";
. Semicolons still terminate statements,[a] but are implicit when the end of a line occurs.[b] Functions may return multiple values, and returning a result, err
pair is the conventional way a function indicates an error to its caller in Go.[c] Go adds literal syntaxes for initializing struct parameters by name, and for initializing maps and slices. As an alternative to C's three-statement for
loop, Go's range
expressions allow concise iteration over arrays, slices, strings, maps, and channels.[citation needed]
Types[edit]
Go has a number of built-in types, including numeric ones (byte, int64, float32, etc.), booleans, and character strings (string). Strings are immutable; built-in operators, and keywords (rather than functions) provide concatenation, comparison, and UTF-8 encoding/decoding.[48] Record types can be defined with the struct keyword.[49]
For each type T and each non-negative integer constant n, there is an array type denoted [n]T; arrays of differing lengths are thus of different types. Dynamic arrays are available as "slices", denoted []T for some type T. These have a length and a capacity specifying when new memory needs to be allocated to expand the array. Several slices may share their underlying memory.[50][51][52]
Pointers are available for all types, and the pointer-to-T type is denoted *T. Address-taking and indirection use the & and * operators as in C, or happen implicitly through the method call or attribute access syntax.[53] There is no pointer arithmetic,[d] except via the special unsafe.Pointer type in the standard library.[54]
For a pair of types K, V, the type map[K]V is the type of hash tables mapping type-K keys to type-V values. Hash tables are built into the language, with special syntax and built-in functions. chan T is a channel that allows sending values of type T between concurrent Go processes.[citation needed]
Aside from its support for interfaces, Go's type system is nominal: the type keyword can be used to define a new named type, which is distinct from other named types that have the same layout (in the case of a struct, the same members in the same order). Some conversions between types (e.g., between the various integer types) are pre-defined and adding a new type may define additional conversions, but conversions between named types must always be invoked explicitly.[55] For example, the type keyword can be used to define a type for IPv4 addresses, based on 32-bit unsigned integers.[citation needed]
type ipv4addr uint32
With this type definition, ipv4addr(x) interprets the uint32 value x as an IP address. Simply assigning x to a variable of type ipv4addr is a type error.[citation needed]
Constant expressions may be either typed or "untyped"; they are given a type when assigned to a typed variable if the value they represent passes a compile-time check.[56]
Function types are indicated by the func keyword; they take zero or more parameters and return zero or more values, all of which are typed. The parameter and return values determine a function type; thus, func(string, int32) (int, error) is the type of functions that take a string and a 32-bit signed integer, and return a signed integer (of default width) and a value of the built-in interface type error.[citation needed]
Any named type has a method set associated with it. The IP address example above can be extended with a method for checking whether its value is a known standard.
// ZeroBroadcast reports whether addr is 255.255.255.255.
func (addr ipv4addr) ZeroBroadcast() bool {
return addr == 0xFFFFFFFF
}
Due to nominal typing, this method definition adds a method to ipv4addr, but not on uint32. While methods have special definition and call syntax, there is no distinct method type.[57]
Interface system[edit]
Go provides two features that replace class inheritance.[citation needed]
The first is embedding, which can be viewed as an automated form of composition[58] or delegation.[59]:255
The second are its interfaces, which provides runtime polymorphism.[60]:266 Interfaces are a class of types and provide a limited form of structural typing in the otherwise nominal type system of Go. An object which is of an interface type is also of another type, much like C++ objects being simultaneously of a base and derived class. Go interfaces were designed after protocols from the Smalltalk programming language.[61] Multiple sources use the term duck typing when describing Go interfaces.[62][63] Although the term duck typing is not precisely defined and therefore not wrong, it usually implies that type conformance is not statically checked. Since conformance to a Go interface is checked statically by the Go compiler (except when performing a type assertion), the Go authors prefer the term structural typing.[64]
The definition of an interface type lists required methods by name and type. Any object of type T for which functions exist matching all the required methods of interface type I is an object of type I as well. The definition of type T need not (and cannot) identify type I. For example, if Shape, Square and Circle are defined as:
import "math"
type Shape interface {
Area() float64
}
type Square struct { // Note: no "implements" declaration
side float64
}
func (sq Square) Area() float64 { return sq.side * sq.side }
type Circle struct { // No "implements" declaration here either
radius float64
}
func (c Circle) Area() float64 { return math.Pi * math.Pow(c.radius, 2) }
Both a Square and a Circle are implicitly a Shape and can be assigned to a Shape-typed variable.[60]:263–268 In formal language, Go's interface system provides structural rather than nominal typing. Interfaces can embed other interfaces with the effect of creating a combined interface that is satisfied by exactly the types that implement the embedded interface and any methods that the newly defined interface adds.[60]:270
The Go standard library uses interfaces to provide genericity in several places, including the input/output system that is based on the concepts of Reader and Writer.[60]:282–283
Besides calling methods via interfaces, Go allows converting interface values to other types with a run-time type check. The language constructs to do so are the type assertion,[65] which checks against a single potential type, and the type switch,[66] which checks against multiple types.[citation needed]
The empty interface interface{}
is an important base case because it can refer to an item of any concrete type. It is similar to the Object class in Java or C# and is satisfied by any type, including built-in types like int.[60]:284 Code using the empty interface cannot simply call methods (or built-in operators) on the referred-to object, but it can store the interface{}
value, try to convert it to a more useful type via a type assertion or type switch, or inspect it with Go's reflect
package.[67] Because interface{}
can refer to any value, it is a limited way to escape the restrictions of static typing, like void*
in C but with additional run-time type checks.[citation needed]
Interface values are implemented using pointer to data and a second pointer to run-time type information.[68] Like some other types implemented using pointers in Go, interface values are nil
if uninitialized.[69]
Package system[edit]
In Go's package system, each package has a path (e.g., "compress/bzip2"
or "golang.org/x/net/html"
) and a name (e.g., bzip2
or html
). References to other packages' definitions must always be prefixed with the other package's name, and only the capitalized names from other packages are accessible: io.Reader
is public but bzip2.reader
is not.[70] The go get
command can retrieve packages stored in a remote repository [71] and developers are encouraged to develop packages inside a base path corresponding to a source repository (such as example.com/user_name/package_name) to reduce the likelihood of name collision with future additions to the standard library or other external libraries.[72]
Proposals exist to introduce a proper package management solution for Go similar to Rust's cargo system or Node's npm system.[73]
Concurrency: goroutines and channels[edit]
The Go language has built-in facilities, as well as library support, for writing concurrent programs. Concurrency refers not only to CPU parallelism, but also to asynchrony: letting slow operations like a database or network-read run while the program does other work, as is common in event-based servers.[74]
The primary concurrency construct is the goroutine, a type of light-weight process. A function call prefixed with the go keyword starts a function in a new goroutine. The language specification does not specify how goroutines should be implemented, but current implementations multiplex a Go process's goroutines onto a smaller set of operating system threads, similar to the scheduling performed in Erlang.[75]:10
While a standard library package featuring most of the classical concurrency control structures (mutex locks, etc.) is available,[75]:151–152 idiomatic concurrent programs instead prefer channels, which provide send messages between goroutines.[76] Optional buffers store messages in FIFO order[59]:43 and allow sending goroutines to proceed before their messages are received.[citation needed]
Channels are typed, so that a channel of type chan T can only be used to transfer messages of type T. Special syntax is used to operate on them; <-ch is an expression that causes the executing goroutine to block until a value comes in over the channel ch, while ch <- x sends the value x (possibly blocking until another goroutine receives the value). The built-in switch-like select statement can be used to implement non-blocking communication on multiple channels; see below for an example. Go has a memory model describing how goroutines must use channels or other operations to safely share data.[77]
The existence of channels sets Go apart from actor model-style concurrent languages like Erlang, where messages are addressed directly to actors (corresponding to goroutines). The actor style can be simulated in Go by maintaining a one-to-one correspondence between goroutines and channels, but the language allows multiple goroutines to share a channel or a single goroutine to send and receive on multiple channels.[75]:147
From these tools one can build concurrent constructs like worker pools, pipelines (in which, say, a file is decompressed and parsed as it downloads), background calls with timeout, "fan-out" parallel calls to a set of services, and others.[78] Channels have also found uses further from the usual notion of interprocess communication, like serving as a concurrency-safe list of recycled buffers,[79] implementing coroutines (which helped inspire the name goroutine),[80] and implementing iterators.[81]
Concurrency-related structural conventions of Go (channels and alternative channel inputs) are derived from Tony Hoare's communicating sequential processes model. Unlike previous concurrent programming languages such as Occam or Limbo (a language on which Go co-designer Rob Pike worked),[82] Go does not provide any built-in notion of safe or verifiable concurrency.[83] While the communicating-processes model is favored in Go, it is not the only one: all goroutines in a program share a single address space. This means that mutable objects and pointers can be shared between goroutines; see § Lack of race condition safety, below.[citation needed]
Suitability for parallel programming[edit]
Although Go's concurrency features are not aimed primarily at parallel processing,[74] they can be used to program shared memory multi-processor machines. Various studies have been done into the effectiveness of this approach.[84] One of these studies compared the size (in lines of code) and speed of programs written by a seasoned programmer not familiar with the language and corrections to these programs by a Go expert (from Google's development team), doing the same for Chapel, Cilk and Intel TBB. The study found that the non-expert tended to write divide-and-conquer algorithms with one go statement per recursion, while the expert wrote distribute-work-synchronize programs using one goroutine per processor. The expert's programs were usually faster, but also longer.[85]
Lack of race condition safety[edit]
There are no restrictions on how goroutines access shared data, making race conditions possible. Specifically, unless a program explicitly synchronizes via channels or other means, writes from one goroutine might be partly, entirely, or not at all visible to another, often with no guarantees about ordering of writes.[83] Furthermore, Go's internal data structures like interface values, slice headers, hash tables, and string headers are not immune to race conditions, so type and memory safety can be violated in multithreaded programs that modify shared instances of those types without synchronization.[86][87] Instead of language support, safe concurrent programming thus relies on conventions; for example, Chisnall recommends an idiom called "aliases xor mutable", meaning that passing a mutable value (or pointer) over a channel signals a transfer of ownership over the value to its receiver.[75]:155
Binaries[edit]
The linker in the gc toolchain creates statically-linked binaries by default therefore all Go binaries include the Go runtime.[88][89]
Omissions[edit]
Go deliberately omits certain features common in other languages, including (implementation) inheritance, generic programming, assertions,[e] pointer arithmetic,[d] implicit type conversions, untagged unions,[f] and tagged unions.[g] The designers added only those facilities that all three agreed on.[92]
Of the omitted language features, the designers explicitly argue against assertions and pointer arithmetic, while defending the choice to omit type inheritance as giving a more useful language, encouraging instead the use of interfaces to achieve dynamic dispatch[h] and composition to reuse code. Composition and delegation are in fact largely automated by struct embedding; according to researchers Schmager et al., this feature "has many of the drawbacks of inheritance: it affects the public interface of objects, it is not fine-grained (i.e, no method-level control over embedding), methods of embedded objects cannot be hidden, and it is static", making it "not obvious" whether programmers will overuse it to the extent that programmers in other languages are reputed to overuse inheritance.[58]
The designers express an openness to generic programming and note that built-in functions are in fact type-generic, but these are treated as special cases; Pike calls this a weakness that may at some point be changed.[50] The Google team built at least one compiler for an experimental Go dialect with generics, but did not release it.[93] They are also open to standardizing ways to apply code generation.[94]
Initially omitted, the exception-like panic/recover mechanism was eventually added, which the Go authors advise using for unrecoverable errors such as those that should halt an entire program or server request, or as a shortcut to propagate errors up the stack within a package (but not across package boundaries; there, error returns are the standard API).[95][96][97][98]
Style[edit]
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The Go authors put substantial effort into influencing the style of Go programs:
- Indentation, spacing, and other surface-level details of code are automatically standardized by the
gofmt
tool.golint
does additional style checks automatically. - Tools and libraries distributed with Go suggest standard approaches to things like API documentation (
godoc
),[99] testing (go test
), building (go build
), package management (go get
), and so on. - Go enforces rules that are recommendations in other languages, for example banning cyclic dependencies, unused variables or imports, and implicit type conversions.
- The omission of certain features (for example, functional-programming shortcuts like
map
and Java-styletry
/finally
blocks) tends to encourage a particular explicit, concrete, and imperative programming style. - On day one the Go team published a collection of Go idioms,[99] and later also collected code review comments,[100] talks,[101] and official blog posts[102] to teach Go style and coding philosophy.
Tools[edit]
The main Go distribution includes tools for building, testing, and analyzing code:
go build
, which builds Go binaries using only information in the source files themselves, no separate makefilesgo test
, for unit testing and microbenchmarksgo fmt
, for formatting codego get
, for retrieving and installing remote packagesgo vet
, a static analyzer looking for potential errors in codego run
, a shortcut for building and executing codegodoc
, for displaying documentation or serving it via HTTPgorename
, for renaming variables, functions, and so on in a type-safe waygo generate
, a standard way to invoke code generators
It also includes profiling and debugging support, runtime instrumentation (for example, to track garbage collection pauses), and a race condition tester.
An ecosystem of third-party tools adds to the standard distribution, such as gocode
, which enables code autocompletion in many text editors, goimports
(by a Go team member), which automatically adds/removes package imports as needed, and errcheck
, which detects code that might unintentionally ignore errors. Plugins exist for adding language support to several text editors. Several IDEs are available, including LiteIDE, a "simple, open source, cross-platform Go IDE",[103] and GoLand, which claims to be "capable and ergonomic."[104]
Examples[edit]
Hello world[edit]
package main
import "fmt"
func main() {
fmt.Println("Hello, world")
}
Concurrency[edit]
The following simple program demonstrates Go's concurrency features to implement an asynchronous program. It launches two "goroutines" (lightweight threads): one waits for the user to type some text, while the other implements a timeout. The select statement waits for either of these goroutines to send a message to the main routine, and acts on the first message to arrive (example adapted from David Chisnall book).[75]:152
package main
import (
"fmt"
"time"
)
func readword(ch chan string) {
fmt.Println("Type a word, then hit Enter.")
var word string
fmt.Scanf("%s", &word)
ch <- word
}
func timeout(t chan bool) {
time.Sleep(5 * time.Second)
t <- false
}
func main() {
t := make(chan bool)
go timeout(t)
ch := make(chan string)
go readword(ch)
select {
case word := <-ch:
fmt.Println("Received", word)
case <-t:
fmt.Println("Timeout.")
}
}
Applications[edit]
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Some notable open-source applications in Go include:[105]
- Caddy, an open source HTTP/2 web server with automatic HTTPS capability.
- CockroachDB, an open source, survivable, strongly consistent, scale-out SQL database.
- Docker, a set of tools for deploying Linux containers
- Ethereum, The go-ethereum implementation of the Ethereum Virtual Machine blockchain for the Ether cryptocurrency [106]
- Hugo, a static site generator
- InfluxDB, an open source database specifically to handle time series data with high availability and high performance requirements.
- InterPlanetary File System, a content-addressable, peer-to-peer hypermedia protocol.[107]
- Juju, a service orchestration tool by Canonical, packagers of Ubuntu Linux
- Kubernetes container management system
- Lightning Network, a bitcoin network that allows for fast Bitcoin transactions and scalability.[108]
- Mattermost, a teamchat system
- OpenShift, a cloud computing platform as a service by Red Hat
- Snappy, a package manager for Ubuntu Touch developed by Canonical.
- Syncthing, an open-source file synchronization client/server application
- Terraform, an open-source, multiple cloud infrastructure provisioning tool from HashiCorp.
Other notable companies and sites using Go (generally together with other languages, not exclusively) include:
- Cacoo, for their rendering of the user dashboard page and microservice using Go and gRPC.[109]
- Chango, a programmatic advertising company uses Go in its real-time bidding systems.[110]
- Cloud Foundry, a platform as a service[111]
- CloudFlare, for their delta-coding proxy Railgun, their distributed DNS service, as well as tools for cryptography, logging, stream processing, and accessing SPDY sites.[112][113]
- CoreOS, a Linux-based operating system that uses Docker containers[114] and rkt containers.
- Couchbase, Query and Indexing services within the Couchbase Server[115]
- Dropbox, who migrated some of their critical components from Python to Go[116]
- Ethereum, a cryptocurrency[117]
- Google, for many projects, notably including download server dl.google.com[118][119][120]
- Heroku, for Doozer, a lock service[15]
- Hyperledger Fabric, an open source, enterprise-focused distributed ledger project
- MongoDB, tools for administering MongoDB instances[121]
- Netflix, for two portions of their server architecture[122]
- Novartis, for an internal inventory system[123]
- Nutanix, for a variety of micro-services in its Enterprise Cloud OS.[124]
- Plug.dj, an interactive online social music streaming website.[125]
- SendGrid, a Boulder, Colorado-based transactional email delivery and management service.[126]
- SoundCloud, for "dozens of systems"[127]
- Splice, for the entire backend (API and parsers) of their online music collaboration platform.[128]
- ThoughtWorks, some tools and applications for continuous delivery and instant messages (CoyIM).[129]
- Twitch.tv, for their IRC-based chat system (migrated from Python).[130]
- Uber, for handling high volumes of geofence-based queries.[131]
Reception[edit]
The interface system, and the deliberate omission of inheritance, were praised by Michele Simionato, who likened these characteristics to those of Standard ML, calling it "a shame that no popular language has followed [this] particular route".[132]
Dave Astels at Engine Yard wrote:[133]
Go is extremely easy to dive into. There are a minimal number of fundamental language concepts and the syntax is clean and designed to be clear and unambiguous.
Go is still experimental and still a little rough around the edges.
Go was named Programming Language of the Year by the TIOBE Programming Community Index in its first year, 2009, for having a larger 12-month increase in popularity (in only 2 months, after its introduction in November) than any other language that year, and reached 13th place by January 2010,[134] surpassing established languages like Pascal. By June 2015, its ranking had dropped to below 50th in the index, placing it lower than COBOL and Fortran.[135] But as of January 2017, its ranking had surged to 13th, indicating significant growth in popularity and adoption. Go was awarded TIOBE programming language of the year 2016.
Bruce Eckel has stated:[136]
The complexity of C++ (even more complexity has been added in the new C++), and the resulting impact on productivity, is no longer justified. All the hoops that the C++ programmer had to jump through in order to use a C-compatible language make no sense anymore -- they're just a waste of time and effort. Go makes much more sense for the class of problems that C++ was originally intended to solve.
A 2011 evaluation of the language and its gc implementation in comparison to C++ (GCC), Java and Scala by a Google engineer found:
Go offers interesting language features, which also allow for a concise and standardized notation. The compilers for this language are still immature, which reflects in both performance and binary sizes.
— R. Hundt[137]
The evaluation got a rebuttal from the Go development team. Ian Lance Taylor, who had improved the Go code for Hundt's paper, had not been aware of the intention to publish his code, and says that his version was "never intended to be an example of idiomatic or efficient Go"; Russ Cox then did optimize the Go code, as well as the C++ code, and got the Go code to run slightly faster than C++ and more than an order of magnitude faster than the code in the paper.[138]
Naming dispute[edit]
On November 10, 2009, the day of the general release of the language, Francis McCabe, developer of the Go! programming language (note the exclamation point), requested a name change of Google's language to prevent confusion with his language, which he had spent 10 years developing.[139] McCabe raised concerns that "the 'big guy' will end up steam-rollering over" him, and this concern resonated with the more than 120 developers who commented on Google's official issues thread saying they should change the name, with some[140] even saying the issue contradicts Google's motto of: Don't be evil.[141]
On October 12, 2010, the issue was closed by Google developer Russ Cox (@rsc) with the custom status "Unfortunate" accompanied by the following comment:
"There are many computing products and services named Go. In the 11 months since our release, there has been minimal confusion of the two languages."[141]
Criticisms[edit]
Go critics assert that:
- The lack of parametric polymorphism for generic programming leads to code duplication or unsafe type conversions and flow disrupting verbosity.[142][143][144][145]
- Go's nil combined with the lack of algebraic types leads to difficulty handling failures and base cases.[142][144]
- Formatting constraints imposed by the language, such as disallowing an opening curly brace to appear alone on its own line, are unusual for a language of its class, and burdensome to some developers.
- Go lacks a number of modern language features, critics believe this leads to more verbose and error prone code, these are features like:
- operator overloading[142][144]
- type inference[142]
- immutable data types[142]
- pattern matching data types[142]
The designers argue these omissions were simplifications that contribute to Go's strength[146] (See § Omissions above).
See also[edit]
- Comparison of programming languages
- Dart, another programming language developed at Google
- UFCS, a way of having "open methods" in other languages
Notes[edit]
- ^ but "To allow complex statements to occupy a single line, a semicolon may be omitted before a closing ) or }".[46]
- ^ “if the newline comes after a token that could end a statement, [the lexer will] insert a semicolon”.[47]
- ^ Usually, exactly one of the result and error values has a value other than the type's zero value; sometimes both do, as when a read or write can only be partially completed, and sometimes neither, as when a read returns 0 bytes. See Semipredicate problem: Multivalued return.
- ^ a b Language FAQ "Why is there no pointer arithmetic? Safety … never derive an illegal address that succeeds incorrectly … using array indices can be as efficient as … pointer arithmetic … simplify the implementation of the garbage collector…."[11]
- ^ Language FAQ "Why does Go not have assertions? …our experience has been that programmers use them as a crutch to avoid thinking about proper error handling and reporting…."[11]
- ^ Language FAQ "Why are there no untagged unions…? [they] would violate Go's memory safety guarantees."[11]
- ^ Language FAQ "Why does Go not have variant types? … We considered [them but] they overlap in confusing ways with interfaces…. [S]ome of what variant types address is already covered, … although not as elegantly."[11] (The tag of an interface type[90] is accessed with a type assertion[91]).
- ^ Questions "How do I get dynamic dispatch of methods?" and "Why is there no type inheritance?" in the language FAQ.[11]
References[edit]
- ^ ""First-Class Functions in Go"". Retrieved November 14, 2018.
Go supports ... a functional programming style in a strongly typed language.
- ^ "Go: code that grows with grace". Retrieved June 24, 2018.
Go is Object Oriented, but not in the usual way.
- ^ a b "Text file LICENSE". The Go Programming Language. Google. Retrieved October 5, 2012.
- ^ "Release History - The Go Programming Language". Retrieved January 3, 2019.
- ^ a b "Why doesn't Go have "implements" declarations?". golang.org. Retrieved October 1, 2015.
- ^ Pike, Rob (December 22, 2014). "Rob Pike on Twitter". Retrieved March 13, 2016.
Go has structural typing, not duck typing. Full interface satisfaction is checked and required.
- ^ "lang/go: go-1.4 – Go programming language". OpenBSD ports. December 23, 2014. Retrieved January 19, 2015.
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The compiler and runtime are now implemented in Go and assembler, without C.
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Ada, Go and Objective-C++ are not default languages
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Google has released version 1 of its Go programming language, an ambitious attempt to improve upon giants of the lower-level programming world such as C and C++.
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interface{}
to areflect.Value
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In Go the rule about visibility of information is simple: if a name (of a top-level type, function, method, constant or variable, or of a structure field or method) is capitalized, users of the package may see it. Otherwise, the name and hence the thing being named is visible only inside the package in which it is declared.
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The packages from the standard library are given short import paths such as "fmt" and "net/http". For your own packages, you must choose a base path that is unlikely to collide with future additions to the standard library or other external libraries. If you keep your code in a source repository somewhere, then you should use the root of that source repository as your base path. For instance, if you have a Example account at example.com/user, that should be your base path
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