mirror of
https://github.com/golang/go
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R=rsc CC=golang-dev https://golang.org/cl/962043
371 lines
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HTML
371 lines
15 KiB
HTML
<!-- FAQ -->
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<h2 id="Origins">Origins</h2>
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<h3 id="What_is_the_purpose_of_the_project">
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What is the purpose of the project?</h3>
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<p>
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No major systems language has emerged in over a decade, but over that time
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the computing landscape has changed tremendously. There are several trends:
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<ul>
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<li>
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Computers are enormously quicker but software development is not faster.
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<li>
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Dependency management is a big part of software development today but the
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“header files” of languages in the C tradition are antithetical to clean
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dependency analysis—and fast compilation.
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<li>
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There is a growing rebellion against cumbersome type systems like those of
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Java and C++, pushing people towards dynamically typed languages such as
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Python and JavaScript.
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<li>
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Some fundamental concepts such as garbage collection and parallel computation
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are not well supported by popular systems languages.
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<li>
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The emergence of multicore computers has generated worry and confusion.
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</ul>
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<p>
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We believe it's worth trying again with a new language, a concurrent,
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garbage-collected language with fast compilation. Regarding the points above:
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<ul>
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<li>
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It is possible to compile a large Go program in a few seconds on a single computer.
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<li>
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Go provides a model for software construction that makes dependency
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analysis easy and avoids much of the overhead of C-style include files and
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libraries.
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<li>
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Go's type system has no hierarchy, so no time is spent defining the
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relationships between types. Also, although Go has static types the language
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attempts to make types feel lighter weight than in typical OO languages.
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<li>
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Go is fully garbage-collected and provides fundamental support for
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concurrent execution and communication.
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<li>
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By its design, Go proposes an approach for the construction of system
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software on multicore machines.
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</ul>
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<h3 id="What_is_the_origin_of_the_name">
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What is the origin of the name?</h3>
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<p>
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“Ogle” would be a good name for a Go debugger.
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<h3 id="What_kind_of_a_name_is_6g">
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What kind of a name is 6g?</h3>
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<p>
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The <code>6g</code> (and <code>8g</code> and <code>5g</code>) compiler is named in the
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tradition of the Plan 9 C compilers, described in
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<a href="http://plan9.bell-labs.com/sys/doc/compiler.html">
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http://plan9.bell-labs.com/sys/doc/compiler.html</a>
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(see the table in section 2).
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<code>6</code> is the architecture letter for amd64 (or x86-64, if you prefer), while
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<code>g</code> stands for Go.
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<h3 id="Why_not_just_write_some_libraries_for_Cpp_to_do_communication">
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Why not just write some libraries for C++ to do communication?</h3>
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<p>We considered doing that, but too many of the problems—lack of
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garbage collection, long dependency chains, nested include files,
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lack of concurrency awareness—are rooted in the design of
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the C and C++ languages themselves.
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We felt a viable solution required a more complete approach.
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<h3 id="Why_doesnt_Go_run_on_Windows">
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Why doesn't Go run on Windows yet?</h3>
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<p>
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We understand that a significant fraction of computers in the world
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run Windows and it would be great if those computers could run Go
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programs. A group of volunteers has made significant progress toward
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porting Go to <a href="http://www.mingw.org/">MinGW</a>.
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You can follow their progress at the Go Wiki's
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<a href="http://code.google.com/p/go/wiki/WindowsPort">WindowsPort</a> page.
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</p>
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<h3 id="Whats_the_origin_of_the_mascot">
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What's the origin of the mascot?</h3>
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<p>
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The mascot and logo were designed by
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<a href="http://reneefrench.blogspot.com">Renée French</a>, who also designed
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<a href="http://plan9.bell-labs.com/plan9/glenda.html">Glenda</a>,
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the Plan 9 bunny.
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The gopher is derived from one she used for an <a href="http://wfmu.org/">WFMU</a>
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T-shirt design some years ago.
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The logo and mascot are covered by the
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<a href="http://creativecommons.org/licenses/by/3.0/">Creative Commons Attribution 3.0</a>
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license.
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</p>
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<h2 id="Usage">Usage</h2>
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<h3 id="Who_should_use_the_language">
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Who should use the language?</h3>
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<p>
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Go is an experiment. We hope adventurous users will give it a try and see
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if they enjoy it. Not every programmer
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will, but we hope enough will find satisfaction in the approach it
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offers to justify further development.
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<h3 id="Is_Google_using_go_internally"> Is Google using Go
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internally?</h3>
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<p> The Go project was conceived to make it easier to write the kind
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of servers and other software Google uses internally, but the
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implementation isn't quite mature enough yet for large-scale
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production use. While we continue development we are also doing
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experiments with the language as a candidate server environment. It's
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getting there. For instance, the server behind <a
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href="http://golang.org">http://golang.org</a> is a Go program; in
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fact it's just the <a href="/cmd/godoc"><code>godoc</code></a> document server running in a
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production configuration.
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<h3 id="Do_Go_programs_link_with_Cpp_programs">
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Do Go programs link with C/C++ programs?</h3>
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<p>
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There are two Go compiler implementations, <code>6g</code> and friends, generically called
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<code>gc</code>, and <code>gccgo</code>.
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<code>Gc</code> uses a different calling convention and linker and can
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therefore only be linked with C programs using the same convention.
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There is such a C compiler but no C++ compiler. <code>Gccgo</code> is a
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GCC front-end that can, with care, be linked with GCC-compiled
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C or C++ programs. However, because Go is garbage-collected it will be
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unwise to do so, at least naively.
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<p>
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There is a “foreign function interface” to allow safe calling of C-written
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libraries from Go code. We expect to use SWIG to extend this capability
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to C++ libraries. There is no safe way to call Go code from C or C++ yet.
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<h3 id="Does_Go_support_Google_protocol_buffers">
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Does Go support Google's protocol buffers?</h3>
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<p>
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A separate open source project provides the necessary compiler plugin and library.
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It is available at
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<a href="http://code.google.com/p/goprotobuf/">http://code.google.com/p/goprotobuf/</a>
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</p>
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<h3 id="Can_I_translate_the_Go_home_page">
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Can I translate the Go home page into another language?</h3>
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<p>
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Absolutely. We encourage developers to make Go Language sites in their own languages.
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However, if you choose to add the Google logo or branding to your site
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(it does not appear on <a href="http://golang.org/">golang.org</a>),
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you will need to abide by the guidelines at
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<a href="http://www.google.com/permissions/guidelines.html">http://www.google.com/permissions/guidelines.html</a>
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</p>
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<h2 id="Design">Design</h2>
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<h3 id="Why_doesnt_Go_have_feature_X">Why doesn't Go have feature X?</h3>
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<p>
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Every language contains novel features and omits someone's favorite
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feature. Go was designed with an eye on felicity of programming, speed of
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compilation, orthogonality of concepts, and the need to support features
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such as concurrency and garbage collection. Your favorite feature may be
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missing because it doesn't fit, because it affects compilation speed or
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clarity of design, or because it would make the fundamental system model
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too difficult.
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<p>
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If it bothers you that Go is missing feature <var>X</var>,
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please forgive us and investigate the features that Go does have. You might find that
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they compensate in interesting ways for the lack of <var>X</var>.
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<h3 id="Why_is_the_syntax_so_different_from_Cpp">
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Why is the syntax so different from C++?</h3>
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<p>
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This and other language design questions are answered in
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the separate <a href="go_lang_faq.html">language design FAQ</a>.
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<h2 id="Object_Oriented_Programming">
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Object-Oriented Programming</h2>
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<h3 id="Is_Go_an_object-oriented_language">
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Is Go an object-oriented language?</h3>
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<p>
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Yes and no. Although Go has types and methods and allows an
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object-oriented style of programming, there is no type hierarchy.
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The concept of “interface” in Go provides a different approach that
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we believe is easy to use and in some ways more general. There are
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also ways to embed types in other types to provide something
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analogous—but not identical—to subclassing.
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Moreover, methods in Go are more general than in C++ or Java:
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they can be defined for any sort of data, not just structs.
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<p>
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Also, the lack of type hierarchy makes “objects” in Go feel much more
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lightweight than in languages such as C++ or Java.
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<h3 id="How_do_I_get_dynamic_dispatch_of_methods">
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How do I get dynamic dispatch of methods?</h3>
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<p>
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The only way to have dynamically dispatched methods is through an
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interface. Methods on structs or other types are always resolved statically.
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<h2 id="Writing_Code">Writing Code</h2>
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<h3 id="How_are_libraries_documented">
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How are libraries documented?</h3>
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<p>
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There is a program, <code>godoc</code>, written in Go, that extracts
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package documentation from the source code. It can be used on the
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command line or on the web. An instance is running at
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<a href="http://golang.org/pkg/">http://golang.org/pkg/</a>.
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In fact, <code>godoc</code> implements the full site at
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<a href="http://golang.org/">http://golang.org/</a>.
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<h3 id="Is_there_a_Go_programming_style_guide">
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Is there a Go programming style guide?</h3>
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<p>
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Eventually, there may be a small number of rules to guide things
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like naming, layout, and file organization.
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The document <a href="effective_go.html">Effective Go</a>
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contains some style advice.
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More directly, the program <code>gofmt</code> is a pretty-printer
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whose purpose is to enforce layout rules; it replaces the usual
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compendium of do's and don'ts that allows interpretation.
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All the Go code in the repository has been run through <code>gofmt</code>.
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<h3 id="How_do_I_submit_patches_to_the_Go_libraries">
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How do I submit patches to the Go libraries?</h3>
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<p>
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The library sources are in <code>go/src/pkg</code>.
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If you want to make a significant change, please discuss on the mailing list before embarking.
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<p>
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See the document
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<a href="contribute.html">Contributing to the Go project</a>
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for more information about how to proceed.
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<h3 id="Where_is_assert">
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Where is assert?</h3>
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<p>
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Go doesn't provide assertions. They are undeniably convenient, but our
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experience has been that programmers use them as a crutch to avoid thinking
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about proper error handling and reporting. Proper error handling means that
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servers continue operation after non-fatal errors instead of crashing.
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Proper error reporting means that errors are direct and to the point,
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saving the programmer from interpreting a large crash trace. Precise
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errors are particularly important when the programmer seeing the errors is
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not familiar with the code.
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<p>
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The same arguments apply to the use of <code>assert()</code> in test programs. Proper
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error handling means letting other tests run after one has failed, so
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that the person debugging the failure gets a complete picture of what is
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wrong. It is more useful for a test to report that
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<code>isPrime</code> gives the wrong answer for 2, 3, 5, and 7 (or for
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2, 4, 8, and 16) than to report that <code>isPrime</code> gives the wrong
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answer for 2 and therefore no more tests were run. The programmer who
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triggers the test failure may not be familiar with the code that fails.
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Time invested writing a good error message now pays off later when the
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test breaks.
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<p>
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In testing, if the amount of extra code required to write
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good errors seems repetitive and overwhelming, it might work better as a
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table-driven test instead.
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Go has excellent support for data structure literals.
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<p>
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We understand that this is a point of contention. There are many things in
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the Go language and libraries that differ from modern practices, simply
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because we feel it's sometimes worth trying a different approach.
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<h2 id="Implementation">Implementation</h2>
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<h3 id="What_compiler_technology_is_used_to_build_the_compilers">
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What compiler technology is used to build the compilers?</h3>
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<p>
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<code>Gccgo</code> has a C++ front-end with a recursive descent parser coupled to the
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standard GCC back end. <code>Gc</code> is written in C using
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<code>yacc</code>/<code>bison</code> for the parser.
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Although it's a new program, it fits in the Plan 9 C compiler suite
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(<a href="http://plan9.bell-labs.com/sys/doc/compiler.html">http://plan9.bell-labs.com/sys/doc/compiler.html</a>)
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and uses a variant of the Plan 9 loader to generate ELF binaries.
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<p>
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We considered writing <code>6g</code>, the original Go compiler, in Go itself but
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elected not to do so because of the difficulties of bootstrapping and
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especially of open source distribution—you'd need a Go compiler to
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set up a Go environment. <code>Gccgo</code>, which came later, makes it possible to
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consider writing a compiler in Go, which might well happen. (Go would be a
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fine language in which to implement a compiler; a native lexer and
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parser are already available in <a href="/pkg/go/"><code>/pkg/go</code></a>.)
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<p>
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We also considered using LLVM for <code>6g</code> but we felt it was too large and
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slow to meet our performance goals.
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<h3 id="How_is_the_runtime_implemented">
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How is the runtime implemented?</h3>
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<p>
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Again due to bootstrapping issues, the runtime is mostly in C (with a
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tiny bit of assembler) although Go is capable of implementing most of
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it now. <code>Gccgo</code>'s runtime uses <code>glibc</code>.
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<code>Gc</code> uses a custom library, to keep the footprint under
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control; it is
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compiled with a version of the Plan 9 C compiler that supports
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segmented stacks for goroutines.
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Work is underway to provide the same stack management in
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<code>gccgo</code>.
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<h2 id="Performance">Performance</h2>
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<h3 id="Why_does_Go_perform_badly_on_benchmark_x">
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Why does Go perform badly on benchmark X?</h3>
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<p>
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One of Go's design goals is to approach the performance of C for comparable
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programs, yet on some benchmarks it does quite poorly, including several
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in <a href="/test/bench/">test/bench</a>. The slowest depend on libraries
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for which versions of comparable performance are not available in Go.
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For instance, pidigits depends on a multi-precision math package, and the C
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versions, unlike Go's, use <a href="http://gmplib.org/">GMP</a> (which is
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written in optimized assembler).
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Benchmarks that depend on regular expressions (regex-dna, for instance) are
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essentially comparing Go's stopgap <a href="/pkg/regexp">regexp package</a> to
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mature, highly optimized regular expression libraries like PCRE.
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</p>
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<p>
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Benchmark games are won by extensive tuning and the Go versions of most
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of the benchmarks need attention. If you measure comparable C
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and Go programs (reverse-complement is one example), you'll see the two
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languages are much closer in raw performance than this suite would
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indicate.
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</p>
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<p>
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Still, there is room for improvement. The compilers are good but could be
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better, many libraries need major performance work, and the garbage collector
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isn't fast enough yet (even if it were, taking care not to generate unnecessary
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garbage can have a huge effect).
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</p>
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