// Copyright 2011 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // DO NOT EDIT THIS FILE. GENERATED BY mkalldocs.sh. // Edit the documentation in other files and rerun mkalldocs.sh to generate this one. // Go is a tool for managing Go source code. // // Usage: // // go command [arguments] // // The commands are: // // build compile packages and dependencies // clean remove object files // doc show documentation for package or symbol // env print Go environment information // bug start a bug report // fix run go tool fix on packages // fmt run gofmt on package sources // generate generate Go files by processing source // get download and install packages and dependencies // install compile and install packages and dependencies // list list packages // run compile and run Go program // test test packages // tool run specified go tool // version print Go version // vet run go tool vet on packages // // Use "go help [command]" for more information about a command. // // Additional help topics: // // c calling between Go and C // buildmode description of build modes // filetype file types // gopath GOPATH environment variable // environment environment variables // importpath import path syntax // packages description of package lists // testflag description of testing flags // testfunc description of testing functions // // Use "go help [topic]" for more information about that topic. // // // Compile packages and dependencies // // Usage: // // go build [-o output] [-i] [build flags] [packages] // // Build compiles the packages named by the import paths, // along with their dependencies, but it does not install the results. // // If the arguments to build are a list of .go files, build treats // them as a list of source files specifying a single package. // // When compiling a single main package, build writes // the resulting executable to an output file named after // the first source file ('go build ed.go rx.go' writes 'ed' or 'ed.exe') // or the source code directory ('go build unix/sam' writes 'sam' or 'sam.exe'). // The '.exe' suffix is added when writing a Windows executable. // // When compiling multiple packages or a single non-main package, // build compiles the packages but discards the resulting object, // serving only as a check that the packages can be built. // // When compiling packages, build ignores files that end in '_test.go'. // // The -o flag, only allowed when compiling a single package, // forces build to write the resulting executable or object // to the named output file, instead of the default behavior described // in the last two paragraphs. // // The -i flag installs the packages that are dependencies of the target. // // The build flags are shared by the build, clean, get, install, list, run, // and test commands: // // -a // force rebuilding of packages that are already up-to-date. // -n // print the commands but do not run them. // -p n // the number of programs, such as build commands or // test binaries, that can be run in parallel. // The default is the number of CPUs available. // -race // enable data race detection. // Supported only on linux/amd64, freebsd/amd64, darwin/amd64 and windows/amd64. // -msan // enable interoperation with memory sanitizer. // Supported only on linux/amd64, // and only with Clang/LLVM as the host C compiler. // -v // print the names of packages as they are compiled. // -work // print the name of the temporary work directory and // do not delete it when exiting. // -x // print the commands. // // -asmflags 'flag list' // arguments to pass on each go tool asm invocation. // -buildmode mode // build mode to use. See 'go help buildmode' for more. // -compiler name // name of compiler to use, as in runtime.Compiler (gccgo or gc). // -gccgoflags 'arg list' // arguments to pass on each gccgo compiler/linker invocation. // -gcflags 'arg list' // arguments to pass on each go tool compile invocation. // -installsuffix suffix // a suffix to use in the name of the package installation directory, // in order to keep output separate from default builds. // If using the -race flag, the install suffix is automatically set to race // or, if set explicitly, has _race appended to it. Likewise for the -msan // flag. Using a -buildmode option that requires non-default compile flags // has a similar effect. // -ldflags 'flag list' // arguments to pass on each go tool link invocation. // -linkshared // link against shared libraries previously created with // -buildmode=shared. // -pkgdir dir // install and load all packages from dir instead of the usual locations. // For example, when building with a non-standard configuration, // use -pkgdir to keep generated packages in a separate location. // -tags 'tag list' // a list of build tags to consider satisfied during the build. // For more information about build tags, see the description of // build constraints in the documentation for the go/build package. // -toolexec 'cmd args' // a program to use to invoke toolchain programs like vet and asm. // For example, instead of running asm, the go command will run // 'cmd args /path/to/asm '. // // The list flags accept a space-separated list of strings. To embed spaces // in an element in the list, surround it with either single or double quotes. // // For more about specifying packages, see 'go help packages'. // For more about where packages and binaries are installed, // run 'go help gopath'. // For more about calling between Go and C/C++, run 'go help c'. // // Note: Build adheres to certain conventions such as those described // by 'go help gopath'. Not all projects can follow these conventions, // however. Installations that have their own conventions or that use // a separate software build system may choose to use lower-level // invocations such as 'go tool compile' and 'go tool link' to avoid // some of the overheads and design decisions of the build tool. // // See also: go install, go get, go clean. // // // Remove object files // // Usage: // // go clean [-i] [-r] [-n] [-x] [build flags] [packages] // // Clean removes object files from package source directories. // The go command builds most objects in a temporary directory, // so go clean is mainly concerned with object files left by other // tools or by manual invocations of go build. // // Specifically, clean removes the following files from each of the // source directories corresponding to the import paths: // // _obj/ old object directory, left from Makefiles // _test/ old test directory, left from Makefiles // _testmain.go old gotest file, left from Makefiles // test.out old test log, left from Makefiles // build.out old test log, left from Makefiles // *.[568ao] object files, left from Makefiles // // DIR(.exe) from go build // DIR.test(.exe) from go test -c // MAINFILE(.exe) from go build MAINFILE.go // *.so from SWIG // // In the list, DIR represents the final path element of the // directory, and MAINFILE is the base name of any Go source // file in the directory that is not included when building // the package. // // The -i flag causes clean to remove the corresponding installed // archive or binary (what 'go install' would create). // // The -n flag causes clean to print the remove commands it would execute, // but not run them. // // The -r flag causes clean to be applied recursively to all the // dependencies of the packages named by the import paths. // // The -x flag causes clean to print remove commands as it executes them. // // For more about build flags, see 'go help build'. // // For more about specifying packages, see 'go help packages'. // // // Show documentation for package or symbol // // Usage: // // go doc [-u] [-c] [package|[package.]symbol[.method]] // // Doc prints the documentation comments associated with the item identified by its // arguments (a package, const, func, type, var, or method) followed by a one-line // summary of each of the first-level items "under" that item (package-level // declarations for a package, methods for a type, etc.). // // Doc accepts zero, one, or two arguments. // // Given no arguments, that is, when run as // // go doc // // it prints the package documentation for the package in the current directory. // If the package is a command (package main), the exported symbols of the package // are elided from the presentation unless the -cmd flag is provided. // // When run with one argument, the argument is treated as a Go-syntax-like // representation of the item to be documented. What the argument selects depends // on what is installed in GOROOT and GOPATH, as well as the form of the argument, // which is schematically one of these: // // go doc // go doc [.] // go doc [.][.] // go doc [.][.] // // The first item in this list matched by the argument is the one whose documentation // is printed. (See the examples below.) However, if the argument starts with a capital // letter it is assumed to identify a symbol or method in the current directory. // // For packages, the order of scanning is determined lexically in breadth-first order. // That is, the package presented is the one that matches the search and is nearest // the root and lexically first at its level of the hierarchy. The GOROOT tree is // always scanned in its entirety before GOPATH. // // If there is no package specified or matched, the package in the current // directory is selected, so "go doc Foo" shows the documentation for symbol Foo in // the current package. // // The package path must be either a qualified path or a proper suffix of a // path. The go tool's usual package mechanism does not apply: package path // elements like . and ... are not implemented by go doc. // // When run with two arguments, the first must be a full package path (not just a // suffix), and the second is a symbol or symbol and method; this is similar to the // syntax accepted by godoc: // // go doc [.] // // In all forms, when matching symbols, lower-case letters in the argument match // either case but upper-case letters match exactly. This means that there may be // multiple matches of a lower-case argument in a package if different symbols have // different cases. If this occurs, documentation for all matches is printed. // // Examples: // go doc // Show documentation for current package. // go doc Foo // Show documentation for Foo in the current package. // (Foo starts with a capital letter so it cannot match // a package path.) // go doc encoding/json // Show documentation for the encoding/json package. // go doc json // Shorthand for encoding/json. // go doc json.Number (or go doc json.number) // Show documentation and method summary for json.Number. // go doc json.Number.Int64 (or go doc json.number.int64) // Show documentation for json.Number's Int64 method. // go doc cmd/doc // Show package docs for the doc command. // go doc -cmd cmd/doc // Show package docs and exported symbols within the doc command. // go doc template.new // Show documentation for html/template's New function. // (html/template is lexically before text/template) // go doc text/template.new # One argument // Show documentation for text/template's New function. // go doc text/template new # Two arguments // Show documentation for text/template's New function. // // At least in the current tree, these invocations all print the // documentation for json.Decoder's Decode method: // // go doc json.Decoder.Decode // go doc json.decoder.decode // go doc json.decode // cd go/src/encoding/json; go doc decode // // Flags: // -c // Respect case when matching symbols. // -cmd // Treat a command (package main) like a regular package. // Otherwise package main's exported symbols are hidden // when showing the package's top-level documentation. // -u // Show documentation for unexported as well as exported // symbols and methods. // // // Print Go environment information // // Usage: // // go env [var ...] // // Env prints Go environment information. // // By default env prints information as a shell script // (on Windows, a batch file). If one or more variable // names is given as arguments, env prints the value of // each named variable on its own line. // // // Start a bug report // // Usage: // // go bug // // Bug opens the default browser and starts a new bug report. // The report includes useful system information. // // // Run go tool fix on packages // // Usage: // // go fix [packages] // // Fix runs the Go fix command on the packages named by the import paths. // // For more about fix, see 'go doc cmd/fix'. // For more about specifying packages, see 'go help packages'. // // To run fix with specific options, run 'go tool fix'. // // See also: go fmt, go vet. // // // Run gofmt on package sources // // Usage: // // go fmt [-n] [-x] [packages] // // Fmt runs the command 'gofmt -l -w' on the packages named // by the import paths. It prints the names of the files that are modified. // // For more about gofmt, see 'go doc cmd/gofmt'. // For more about specifying packages, see 'go help packages'. // // The -n flag prints commands that would be executed. // The -x flag prints commands as they are executed. // // To run gofmt with specific options, run gofmt itself. // // See also: go fix, go vet. // // // Generate Go files by processing source // // Usage: // // go generate [-run regexp] [-n] [-v] [-x] [build flags] [file.go... | packages] // // Generate runs commands described by directives within existing // files. Those commands can run any process but the intent is to // create or update Go source files. // // Go generate is never run automatically by go build, go get, go test, // and so on. It must be run explicitly. // // Go generate scans the file for directives, which are lines of // the form, // // //go:generate command argument... // // (note: no leading spaces and no space in "//go") where command // is the generator to be run, corresponding to an executable file // that can be run locally. It must either be in the shell path // (gofmt), a fully qualified path (/usr/you/bin/mytool), or a // command alias, described below. // // Note that go generate does not parse the file, so lines that look // like directives in comments or multiline strings will be treated // as directives. // // The arguments to the directive are space-separated tokens or // double-quoted strings passed to the generator as individual // arguments when it is run. // // Quoted strings use Go syntax and are evaluated before execution; a // quoted string appears as a single argument to the generator. // // Go generate sets several variables when it runs the generator: // // $GOARCH // The execution architecture (arm, amd64, etc.) // $GOOS // The execution operating system (linux, windows, etc.) // $GOFILE // The base name of the file. // $GOLINE // The line number of the directive in the source file. // $GOPACKAGE // The name of the package of the file containing the directive. // $DOLLAR // A dollar sign. // // Other than variable substitution and quoted-string evaluation, no // special processing such as "globbing" is performed on the command // line. // // As a last step before running the command, any invocations of any // environment variables with alphanumeric names, such as $GOFILE or // $HOME, are expanded throughout the command line. The syntax for // variable expansion is $NAME on all operating systems. Due to the // order of evaluation, variables are expanded even inside quoted // strings. If the variable NAME is not set, $NAME expands to the // empty string. // // A directive of the form, // // //go:generate -command xxx args... // // specifies, for the remainder of this source file only, that the // string xxx represents the command identified by the arguments. This // can be used to create aliases or to handle multiword generators. // For example, // // //go:generate -command foo go tool foo // // specifies that the command "foo" represents the generator // "go tool foo". // // Generate processes packages in the order given on the command line, // one at a time. If the command line lists .go files, they are treated // as a single package. Within a package, generate processes the // source files in a package in file name order, one at a time. Within // a source file, generate runs generators in the order they appear // in the file, one at a time. // // If any generator returns an error exit status, "go generate" skips // all further processing for that package. // // The generator is run in the package's source directory. // // Go generate accepts one specific flag: // // -run="" // if non-empty, specifies a regular expression to select // directives whose full original source text (excluding // any trailing spaces and final newline) matches the // expression. // // It also accepts the standard build flags including -v, -n, and -x. // The -v flag prints the names of packages and files as they are // processed. // The -n flag prints commands that would be executed. // The -x flag prints commands as they are executed. // // For more about build flags, see 'go help build'. // // For more about specifying packages, see 'go help packages'. // // // Download and install packages and dependencies // // Usage: // // go get [-d] [-f] [-fix] [-insecure] [-t] [-u] [build flags] [packages] // // Get downloads the packages named by the import paths, along with their // dependencies. It then installs the named packages, like 'go install'. // // The -d flag instructs get to stop after downloading the packages; that is, // it instructs get not to install the packages. // // The -f flag, valid only when -u is set, forces get -u not to verify that // each package has been checked out from the source control repository // implied by its import path. This can be useful if the source is a local fork // of the original. // // The -fix flag instructs get to run the fix tool on the downloaded packages // before resolving dependencies or building the code. // // The -insecure flag permits fetching from repositories and resolving // custom domains using insecure schemes such as HTTP. Use with caution. // // The -t flag instructs get to also download the packages required to build // the tests for the specified packages. // // The -u flag instructs get to use the network to update the named packages // and their dependencies. By default, get uses the network to check out // missing packages but does not use it to look for updates to existing packages. // // The -v flag enables verbose progress and debug output. // // Get also accepts build flags to control the installation. See 'go help build'. // // When checking out a new package, get creates the target directory // GOPATH/src/. If the GOPATH contains multiple entries, // get uses the first one. For more details see: 'go help gopath'. // // When checking out or updating a package, get looks for a branch or tag // that matches the locally installed version of Go. The most important // rule is that if the local installation is running version "go1", get // searches for a branch or tag named "go1". If no such version exists it // retrieves the most recent version of the package. // // When go get checks out or updates a Git repository, // it also updates any git submodules referenced by the repository. // // Get never checks out or updates code stored in vendor directories. // // For more about specifying packages, see 'go help packages'. // // For more about how 'go get' finds source code to // download, see 'go help importpath'. // // See also: go build, go install, go clean. // // // Compile and install packages and dependencies // // Usage: // // go install [build flags] [packages] // // Install compiles and installs the packages named by the import paths, // along with their dependencies. // // For more about the build flags, see 'go help build'. // For more about specifying packages, see 'go help packages'. // // See also: go build, go get, go clean. // // // List packages // // Usage: // // go list [-e] [-f format] [-json] [build flags] [packages] // // List lists the packages named by the import paths, one per line. // // The default output shows the package import path: // // bytes // encoding/json // github.com/gorilla/mux // golang.org/x/net/html // // The -f flag specifies an alternate format for the list, using the // syntax of package template. The default output is equivalent to -f // '{{.ImportPath}}'. The struct being passed to the template is: // // type Package struct { // Dir string // directory containing package sources // ImportPath string // import path of package in dir // ImportComment string // path in import comment on package statement // Name string // package name // Doc string // package documentation string // Target string // install path // Shlib string // the shared library that contains this package (only set when -linkshared) // Goroot bool // is this package in the Go root? // Standard bool // is this package part of the standard Go library? // Stale bool // would 'go install' do anything for this package? // StaleReason string // explanation for Stale==true // Root string // Go root or Go path dir containing this package // ConflictDir string // this directory shadows Dir in $GOPATH // BinaryOnly bool // binary-only package: cannot be recompiled from sources // // // Source files // GoFiles []string // .go source files (excluding CgoFiles, TestGoFiles, XTestGoFiles) // CgoFiles []string // .go sources files that import "C" // IgnoredGoFiles []string // .go sources ignored due to build constraints // CFiles []string // .c source files // CXXFiles []string // .cc, .cxx and .cpp source files // MFiles []string // .m source files // HFiles []string // .h, .hh, .hpp and .hxx source files // FFiles []string // .f, .F, .for and .f90 Fortran source files // SFiles []string // .s source files // SwigFiles []string // .swig files // SwigCXXFiles []string // .swigcxx files // SysoFiles []string // .syso object files to add to archive // TestGoFiles []string // _test.go files in package // XTestGoFiles []string // _test.go files outside package // // // Cgo directives // CgoCFLAGS []string // cgo: flags for C compiler // CgoCPPFLAGS []string // cgo: flags for C preprocessor // CgoCXXFLAGS []string // cgo: flags for C++ compiler // CgoFFLAGS []string // cgo: flags for Fortran compiler // CgoLDFLAGS []string // cgo: flags for linker // CgoPkgConfig []string // cgo: pkg-config names // // // Dependency information // Imports []string // import paths used by this package // Deps []string // all (recursively) imported dependencies // TestImports []string // imports from TestGoFiles // XTestImports []string // imports from XTestGoFiles // // // Error information // Incomplete bool // this package or a dependency has an error // Error *PackageError // error loading package // DepsErrors []*PackageError // errors loading dependencies // } // // Packages stored in vendor directories report an ImportPath that includes the // path to the vendor directory (for example, "d/vendor/p" instead of "p"), // so that the ImportPath uniquely identifies a given copy of a package. // The Imports, Deps, TestImports, and XTestImports lists also contain these // expanded imports paths. See golang.org/s/go15vendor for more about vendoring. // // The error information, if any, is // // type PackageError struct { // ImportStack []string // shortest path from package named on command line to this one // Pos string // position of error (if present, file:line:col) // Err string // the error itself // } // // The template function "join" calls strings.Join. // // The template function "context" returns the build context, defined as: // // type Context struct { // GOARCH string // target architecture // GOOS string // target operating system // GOROOT string // Go root // GOPATH string // Go path // CgoEnabled bool // whether cgo can be used // UseAllFiles bool // use files regardless of +build lines, file names // Compiler string // compiler to assume when computing target paths // BuildTags []string // build constraints to match in +build lines // ReleaseTags []string // releases the current release is compatible with // InstallSuffix string // suffix to use in the name of the install dir // } // // For more information about the meaning of these fields see the documentation // for the go/build package's Context type. // // The -json flag causes the package data to be printed in JSON format // instead of using the template format. // // The -e flag changes the handling of erroneous packages, those that // cannot be found or are malformed. By default, the list command // prints an error to standard error for each erroneous package and // omits the packages from consideration during the usual printing. // With the -e flag, the list command never prints errors to standard // error and instead processes the erroneous packages with the usual // printing. Erroneous packages will have a non-empty ImportPath and // a non-nil Error field; other information may or may not be missing // (zeroed). // // For more about build flags, see 'go help build'. // // For more about specifying packages, see 'go help packages'. // // // Compile and run Go program // // Usage: // // go run [build flags] [-exec xprog] gofiles... [arguments...] // // Run compiles and runs the main package comprising the named Go source files. // A Go source file is defined to be a file ending in a literal ".go" suffix. // // By default, 'go run' runs the compiled binary directly: 'a.out arguments...'. // If the -exec flag is given, 'go run' invokes the binary using xprog: // 'xprog a.out arguments...'. // If the -exec flag is not given, GOOS or GOARCH is different from the system // default, and a program named go_$GOOS_$GOARCH_exec can be found // on the current search path, 'go run' invokes the binary using that program, // for example 'go_nacl_386_exec a.out arguments...'. This allows execution of // cross-compiled programs when a simulator or other execution method is // available. // // For more about build flags, see 'go help build'. // // See also: go build. // // // Test packages // // Usage: // // go test [build/test flags] [packages] [build/test flags & test binary flags] // // 'Go test' automates testing the packages named by the import paths. // It prints a summary of the test results in the format: // // ok archive/tar 0.011s // FAIL archive/zip 0.022s // ok compress/gzip 0.033s // ... // // followed by detailed output for each failed package. // // 'Go test' recompiles each package along with any files with names matching // the file pattern "*_test.go". // Files whose names begin with "_" (including "_test.go") or "." are ignored. // These additional files can contain test functions, benchmark functions, and // example functions. See 'go help testfunc' for more. // Each listed package causes the execution of a separate test binary. // // Test files that declare a package with the suffix "_test" will be compiled as a // separate package, and then linked and run with the main test binary. // // The go tool will ignore a directory named "testdata", making it available // to hold ancillary data needed by the tests. // // By default, go test needs no arguments. It compiles and tests the package // with source in the current directory, including tests, and runs the tests. // // The package is built in a temporary directory so it does not interfere with the // non-test installation. // // In addition to the build flags, the flags handled by 'go test' itself are: // // -args // Pass the remainder of the command line (everything after -args) // to the test binary, uninterpreted and unchanged. // Because this flag consumes the remainder of the command line, // the package list (if present) must appear before this flag. // // -c // Compile the test binary to pkg.test but do not run it // (where pkg is the last element of the package's import path). // The file name can be changed with the -o flag. // // -exec xprog // Run the test binary using xprog. The behavior is the same as // in 'go run'. See 'go help run' for details. // // -i // Install packages that are dependencies of the test. // Do not run the test. // // -o file // Compile the test binary to the named file. // The test still runs (unless -c or -i is specified). // // The test binary also accepts flags that control execution of the test; these // flags are also accessible by 'go test'. See 'go help testflag' for details. // // For more about build flags, see 'go help build'. // For more about specifying packages, see 'go help packages'. // // See also: go build, go vet. // // // Run specified go tool // // Usage: // // go tool [-n] command [args...] // // Tool runs the go tool command identified by the arguments. // With no arguments it prints the list of known tools. // // The -n flag causes tool to print the command that would be // executed but not execute it. // // For more about each tool command, see 'go tool command -h'. // // // Print Go version // // Usage: // // go version // // Version prints the Go version, as reported by runtime.Version. // // // Run go tool vet on packages // // Usage: // // go vet [-n] [-x] [build flags] [packages] // // Vet runs the Go vet command on the packages named by the import paths. // // For more about vet, see 'go doc cmd/vet'. // For more about specifying packages, see 'go help packages'. // // To run the vet tool with specific options, run 'go tool vet'. // // The -n flag prints commands that would be executed. // The -x flag prints commands as they are executed. // // For more about build flags, see 'go help build'. // // See also: go fmt, go fix. // // // Calling between Go and C // // There are two different ways to call between Go and C/C++ code. // // The first is the cgo tool, which is part of the Go distribution. For // information on how to use it see the cgo documentation (go doc cmd/cgo). // // The second is the SWIG program, which is a general tool for // interfacing between languages. For information on SWIG see // http://swig.org/. When running go build, any file with a .swig // extension will be passed to SWIG. Any file with a .swigcxx extension // will be passed to SWIG with the -c++ option. // // When either cgo or SWIG is used, go build will pass any .c, .m, .s, // or .S files to the C compiler, and any .cc, .cpp, .cxx files to the C++ // compiler. The CC or CXX environment variables may be set to determine // the C or C++ compiler, respectively, to use. // // // Description of build modes // // The 'go build' and 'go install' commands take a -buildmode argument which // indicates which kind of object file is to be built. Currently supported values // are: // // -buildmode=archive // Build the listed non-main packages into .a files. Packages named // main are ignored. // // -buildmode=c-archive // Build the listed main package, plus all packages it imports, // into a C archive file. The only callable symbols will be those // functions exported using a cgo //export comment. Requires // exactly one main package to be listed. // // -buildmode=c-shared // Build the listed main packages, plus all packages that they // import, into C shared libraries. The only callable symbols will // be those functions exported using a cgo //export comment. // Non-main packages are ignored. // // -buildmode=default // Listed main packages are built into executables and listed // non-main packages are built into .a files (the default // behavior). // // -buildmode=shared // Combine all the listed non-main packages into a single shared // library that will be used when building with the -linkshared // option. Packages named main are ignored. // // -buildmode=exe // Build the listed main packages and everything they import into // executables. Packages not named main are ignored. // // -buildmode=pie // Build the listed main packages and everything they import into // position independent executables (PIE). Packages not named // main are ignored. // // -buildmode=plugin // Build the listed main packages, plus all packages that they // import, into a Go plugin. Packages not named main are ignored. // // // File types // // The go command examines the contents of a restricted set of files // in each directory. It identifies which files to examine based on // the extension of the file name. These extensions are: // // .go // Go source files. // .c, .h // C source files. // If the package uses cgo or SWIG, these will be compiled with the // OS-native compiler (typically gcc); otherwise they will // trigger an error. // .cc, .cpp, .cxx, .hh, .hpp, .hxx // C++ source files. Only useful with cgo or SWIG, and always // compiled with the OS-native compiler. // .m // Objective-C source files. Only useful with cgo, and always // compiled with the OS-native compiler. // .s, .S // Assembler source files. // If the package uses cgo or SWIG, these will be assembled with the // OS-native assembler (typically gcc (sic)); otherwise they // will be assembled with the Go assembler. // .swig, .swigcxx // SWIG definition files. // .syso // System object files. // // Files of each of these types except .syso may contain build // constraints, but the go command stops scanning for build constraints // at the first item in the file that is not a blank line or //-style // line comment. See the go/build package documentation for // more details. // // Non-test Go source files can also include a //go:binary-only-package // comment, indicating that the package sources are included // for documentation only and must not be used to build the // package binary. This enables distribution of Go packages in // their compiled form alone. See the go/build package documentation // for more details. // // // GOPATH environment variable // // The Go path is used to resolve import statements. // It is implemented by and documented in the go/build package. // // The GOPATH environment variable lists places to look for Go code. // On Unix, the value is a colon-separated string. // On Windows, the value is a semicolon-separated string. // On Plan 9, the value is a list. // // If the environment variable is unset, GOPATH defaults // to a subdirectory named "go" in the user's home directory // ($HOME/go on Unix, %USERPROFILE%\go on Windows), // unless that directory holds a Go distribution. // Run "go env GOPATH" to see the current GOPATH. // // See https://golang.org/wiki/SettingGOPATH to set a custom GOPATH. // // Each directory listed in GOPATH must have a prescribed structure: // // The src directory holds source code. The path below src // determines the import path or executable name. // // The pkg directory holds installed package objects. // As in the Go tree, each target operating system and // architecture pair has its own subdirectory of pkg // (pkg/GOOS_GOARCH). // // If DIR is a directory listed in the GOPATH, a package with // source in DIR/src/foo/bar can be imported as "foo/bar" and // has its compiled form installed to "DIR/pkg/GOOS_GOARCH/foo/bar.a". // // The bin directory holds compiled commands. // Each command is named for its source directory, but only // the final element, not the entire path. That is, the // command with source in DIR/src/foo/quux is installed into // DIR/bin/quux, not DIR/bin/foo/quux. The "foo/" prefix is stripped // so that you can add DIR/bin to your PATH to get at the // installed commands. If the GOBIN environment variable is // set, commands are installed to the directory it names instead // of DIR/bin. GOBIN must be an absolute path. // // Here's an example directory layout: // // GOPATH=/home/user/go // // /home/user/go/ // src/ // foo/ // bar/ (go code in package bar) // x.go // quux/ (go code in package main) // y.go // bin/ // quux (installed command) // pkg/ // linux_amd64/ // foo/ // bar.a (installed package object) // // Go searches each directory listed in GOPATH to find source code, // but new packages are always downloaded into the first directory // in the list. // // See https://golang.org/doc/code.html for an example. // // Internal Directories // // Code in or below a directory named "internal" is importable only // by code in the directory tree rooted at the parent of "internal". // Here's an extended version of the directory layout above: // // /home/user/go/ // src/ // crash/ // bang/ (go code in package bang) // b.go // foo/ (go code in package foo) // f.go // bar/ (go code in package bar) // x.go // internal/ // baz/ (go code in package baz) // z.go // quux/ (go code in package main) // y.go // // // The code in z.go is imported as "foo/internal/baz", but that // import statement can only appear in source files in the subtree // rooted at foo. The source files foo/f.go, foo/bar/x.go, and // foo/quux/y.go can all import "foo/internal/baz", but the source file // crash/bang/b.go cannot. // // See https://golang.org/s/go14internal for details. // // Vendor Directories // // Go 1.6 includes support for using local copies of external dependencies // to satisfy imports of those dependencies, often referred to as vendoring. // // Code below a directory named "vendor" is importable only // by code in the directory tree rooted at the parent of "vendor", // and only using an import path that omits the prefix up to and // including the vendor element. // // Here's the example from the previous section, // but with the "internal" directory renamed to "vendor" // and a new foo/vendor/crash/bang directory added: // // /home/user/go/ // src/ // crash/ // bang/ (go code in package bang) // b.go // foo/ (go code in package foo) // f.go // bar/ (go code in package bar) // x.go // vendor/ // crash/ // bang/ (go code in package bang) // b.go // baz/ (go code in package baz) // z.go // quux/ (go code in package main) // y.go // // The same visibility rules apply as for internal, but the code // in z.go is imported as "baz", not as "foo/vendor/baz". // // Code in vendor directories deeper in the source tree shadows // code in higher directories. Within the subtree rooted at foo, an import // of "crash/bang" resolves to "foo/vendor/crash/bang", not the // top-level "crash/bang". // // Code in vendor directories is not subject to import path // checking (see 'go help importpath'). // // When 'go get' checks out or updates a git repository, it now also // updates submodules. // // Vendor directories do not affect the placement of new repositories // being checked out for the first time by 'go get': those are always // placed in the main GOPATH, never in a vendor subtree. // // See https://golang.org/s/go15vendor for details. // // // Environment variables // // The go command, and the tools it invokes, examine a few different // environment variables. For many of these, you can see the default // value of on your system by running 'go env NAME', where NAME is the // name of the variable. // // General-purpose environment variables: // // GCCGO // The gccgo command to run for 'go build -compiler=gccgo'. // GOARCH // The architecture, or processor, for which to compile code. // Examples are amd64, 386, arm, ppc64. // GOBIN // The directory where 'go install' will install a command. // GOOS // The operating system for which to compile code. // Examples are linux, darwin, windows, netbsd. // GOPATH // For more details see: 'go help gopath'. // GORACE // Options for the race detector. // See https://golang.org/doc/articles/race_detector.html. // GOROOT // The root of the go tree. // // Environment variables for use with cgo: // // CC // The command to use to compile C code. // CGO_ENABLED // Whether the cgo command is supported. Either 0 or 1. // CGO_CFLAGS // Flags that cgo will pass to the compiler when compiling // C code. // CGO_CPPFLAGS // Flags that cgo will pass to the compiler when compiling // C or C++ code. // CGO_CXXFLAGS // Flags that cgo will pass to the compiler when compiling // C++ code. // CGO_FFLAGS // Flags that cgo will pass to the compiler when compiling // Fortran code. // CGO_LDFLAGS // Flags that cgo will pass to the compiler when linking. // CXX // The command to use to compile C++ code. // PKG_CONFIG // Path to pkg-config tool. // // Architecture-specific environment variables: // // GOARM // For GOARCH=arm, the ARM architecture for which to compile. // Valid values are 5, 6, 7. // GO386 // For GOARCH=386, the floating point instruction set. // Valid values are 387, sse2. // // Special-purpose environment variables: // // GOROOT_FINAL // The root of the installed Go tree, when it is // installed in a location other than where it is built. // File names in stack traces are rewritten from GOROOT to // GOROOT_FINAL. // GO_EXTLINK_ENABLED // Whether the linker should use external linking mode // when using -linkmode=auto with code that uses cgo. // Set to 0 to disable external linking mode, 1 to enable it. // GIT_ALLOW_PROTOCOL // Defined by Git. A colon-separated list of schemes that are allowed to be used // with git fetch/clone. If set, any scheme not explicitly mentioned will be // considered insecure by 'go get'. // // // Import path syntax // // An import path (see 'go help packages') denotes a package stored in the local // file system. In general, an import path denotes either a standard package (such // as "unicode/utf8") or a package found in one of the work spaces (For more // details see: 'go help gopath'). // // Relative import paths // // An import path beginning with ./ or ../ is called a relative path. // The toolchain supports relative import paths as a shortcut in two ways. // // First, a relative path can be used as a shorthand on the command line. // If you are working in the directory containing the code imported as // "unicode" and want to run the tests for "unicode/utf8", you can type // "go test ./utf8" instead of needing to specify the full path. // Similarly, in the reverse situation, "go test .." will test "unicode" from // the "unicode/utf8" directory. Relative patterns are also allowed, like // "go test ./..." to test all subdirectories. See 'go help packages' for details // on the pattern syntax. // // Second, if you are compiling a Go program not in a work space, // you can use a relative path in an import statement in that program // to refer to nearby code also not in a work space. // This makes it easy to experiment with small multipackage programs // outside of the usual work spaces, but such programs cannot be // installed with "go install" (there is no work space in which to install them), // so they are rebuilt from scratch each time they are built. // To avoid ambiguity, Go programs cannot use relative import paths // within a work space. // // Remote import paths // // Certain import paths also // describe how to obtain the source code for the package using // a revision control system. // // A few common code hosting sites have special syntax: // // Bitbucket (Git, Mercurial) // // import "bitbucket.org/user/project" // import "bitbucket.org/user/project/sub/directory" // // GitHub (Git) // // import "github.com/user/project" // import "github.com/user/project/sub/directory" // // Launchpad (Bazaar) // // import "launchpad.net/project" // import "launchpad.net/project/series" // import "launchpad.net/project/series/sub/directory" // // import "launchpad.net/~user/project/branch" // import "launchpad.net/~user/project/branch/sub/directory" // // IBM DevOps Services (Git) // // import "hub.jazz.net/git/user/project" // import "hub.jazz.net/git/user/project/sub/directory" // // For code hosted on other servers, import paths may either be qualified // with the version control type, or the go tool can dynamically fetch // the import path over https/http and discover where the code resides // from a tag in the HTML. // // To declare the code location, an import path of the form // // repository.vcs/path // // specifies the given repository, with or without the .vcs suffix, // using the named version control system, and then the path inside // that repository. The supported version control systems are: // // Bazaar .bzr // Git .git // Mercurial .hg // Subversion .svn // // For example, // // import "example.org/user/foo.hg" // // denotes the root directory of the Mercurial repository at // example.org/user/foo or foo.hg, and // // import "example.org/repo.git/foo/bar" // // denotes the foo/bar directory of the Git repository at // example.org/repo or repo.git. // // When a version control system supports multiple protocols, // each is tried in turn when downloading. For example, a Git // download tries https://, then git+ssh://. // // By default, downloads are restricted to known secure protocols // (e.g. https, ssh). To override this setting for Git downloads, the // GIT_ALLOW_PROTOCOL environment variable can be set (For more details see: // 'go help environment'). // // If the import path is not a known code hosting site and also lacks a // version control qualifier, the go tool attempts to fetch the import // over https/http and looks for a tag in the document's HTML // . // // The meta tag has the form: // // // // The import-prefix is the import path corresponding to the repository // root. It must be a prefix or an exact match of the package being // fetched with "go get". If it's not an exact match, another http // request is made at the prefix to verify the tags match. // // The meta tag should appear as early in the file as possible. // In particular, it should appear before any raw JavaScript or CSS, // to avoid confusing the go command's restricted parser. // // The vcs is one of "git", "hg", "svn", etc, // // The repo-root is the root of the version control system // containing a scheme and not containing a .vcs qualifier. // // For example, // // import "example.org/pkg/foo" // // will result in the following requests: // // https://example.org/pkg/foo?go-get=1 (preferred) // http://example.org/pkg/foo?go-get=1 (fallback, only with -insecure) // // If that page contains the meta tag // // // // the go tool will verify that https://example.org/?go-get=1 contains the // same meta tag and then git clone https://code.org/r/p/exproj into // GOPATH/src/example.org. // // New downloaded packages are written to the first directory listed in the GOPATH // environment variable (For more details see: 'go help gopath'). // // The go command attempts to download the version of the // package appropriate for the Go release being used. // Run 'go help get' for more. // // Import path checking // // When the custom import path feature described above redirects to a // known code hosting site, each of the resulting packages has two possible // import paths, using the custom domain or the known hosting site. // // A package statement is said to have an "import comment" if it is immediately // followed (before the next newline) by a comment of one of these two forms: // // package math // import "path" // package math /* import "path" */ // // The go command will refuse to install a package with an import comment // unless it is being referred to by that import path. In this way, import comments // let package authors make sure the custom import path is used and not a // direct path to the underlying code hosting site. // // Import path checking is disabled for code found within vendor trees. // This makes it possible to copy code into alternate locations in vendor trees // without needing to update import comments. // // See https://golang.org/s/go14customimport for details. // // // Description of package lists // // Many commands apply to a set of packages: // // go action [packages] // // Usually, [packages] is a list of import paths. // // An import path that is a rooted path or that begins with // a . or .. element is interpreted as a file system path and // denotes the package in that directory. // // Otherwise, the import path P denotes the package found in // the directory DIR/src/P for some DIR listed in the GOPATH // environment variable (For more details see: 'go help gopath'). // // If no import paths are given, the action applies to the // package in the current directory. // // There are four reserved names for paths that should not be used // for packages to be built with the go tool: // // - "main" denotes the top-level package in a stand-alone executable. // // - "all" expands to all package directories found in all the GOPATH // trees. For example, 'go list all' lists all the packages on the local // system. // // - "std" is like all but expands to just the packages in the standard // Go library. // // - "cmd" expands to the Go repository's commands and their // internal libraries. // // Import paths beginning with "cmd/" only match source code in // the Go repository. // // An import path is a pattern if it includes one or more "..." wildcards, // each of which can match any string, including the empty string and // strings containing slashes. Such a pattern expands to all package // directories found in the GOPATH trees with names matching the // patterns. As a special case, x/... matches x as well as x's subdirectories. // For example, net/... expands to net and packages in its subdirectories. // // An import path can also name a package to be downloaded from // a remote repository. Run 'go help importpath' for details. // // Every package in a program must have a unique import path. // By convention, this is arranged by starting each path with a // unique prefix that belongs to you. For example, paths used // internally at Google all begin with 'google', and paths // denoting remote repositories begin with the path to the code, // such as 'github.com/user/repo'. // // Packages in a program need not have unique package names, // but there are two reserved package names with special meaning. // The name main indicates a command, not a library. // Commands are built into binaries and cannot be imported. // The name documentation indicates documentation for // a non-Go program in the directory. Files in package documentation // are ignored by the go command. // // As a special case, if the package list is a list of .go files from a // single directory, the command is applied to a single synthesized // package made up of exactly those files, ignoring any build constraints // in those files and ignoring any other files in the directory. // // Directory and file names that begin with "." or "_" are ignored // by the go tool, as are directories named "testdata". // // // Description of testing flags // // The 'go test' command takes both flags that apply to 'go test' itself // and flags that apply to the resulting test binary. // // Several of the flags control profiling and write an execution profile // suitable for "go tool pprof"; run "go tool pprof -h" for more // information. The --alloc_space, --alloc_objects, and --show_bytes // options of pprof control how the information is presented. // // The following flags are recognized by the 'go test' command and // control the execution of any test: // // -bench regexp // Run (sub)benchmarks matching a regular expression. // The given regular expression is split into smaller ones by // top-level '/', where each must match the corresponding part of a // benchmark's identifier. // By default, no benchmarks run. To run all benchmarks, // use '-bench .' or '-bench=.'. // // -benchtime t // Run enough iterations of each benchmark to take t, specified // as a time.Duration (for example, -benchtime 1h30s). // The default is 1 second (1s). // // -count n // Run each test and benchmark n times (default 1). // If -cpu is set, run n times for each GOMAXPROCS value. // Examples are always run once. // // -cover // Enable coverage analysis. // // -covermode set,count,atomic // Set the mode for coverage analysis for the package[s] // being tested. The default is "set" unless -race is enabled, // in which case it is "atomic". // The values: // set: bool: does this statement run? // count: int: how many times does this statement run? // atomic: int: count, but correct in multithreaded tests; // significantly more expensive. // Sets -cover. // // -coverpkg pkg1,pkg2,pkg3 // Apply coverage analysis in each test to the given list of packages. // The default is for each test to analyze only the package being tested. // Packages are specified as import paths. // Sets -cover. // // -cpu 1,2,4 // Specify a list of GOMAXPROCS values for which the tests or // benchmarks should be executed. The default is the current value // of GOMAXPROCS. // // -parallel n // Allow parallel execution of test functions that call t.Parallel. // The value of this flag is the maximum number of tests to run // simultaneously; by default, it is set to the value of GOMAXPROCS. // Note that -parallel only applies within a single test binary. // The 'go test' command may run tests for different packages // in parallel as well, according to the setting of the -p flag // (see 'go help build'). // // -run regexp // Run only those tests and examples matching the regular expression. // For tests the regular expression is split into smaller ones by // top-level '/', where each must match the corresponding part of a // test's identifier. // // -short // Tell long-running tests to shorten their run time. // It is off by default but set during all.bash so that installing // the Go tree can run a sanity check but not spend time running // exhaustive tests. // // -timeout t // If a test runs longer than t, panic. // The default is 10 minutes (10m). // // -v // Verbose output: log all tests as they are run. Also print all // text from Log and Logf calls even if the test succeeds. // // The following flags are also recognized by 'go test' and can be used to // profile the tests during execution: // // -benchmem // Print memory allocation statistics for benchmarks. // // -blockprofile block.out // Write a goroutine blocking profile to the specified file // when all tests are complete. // Writes test binary as -c would. // // -blockprofilerate n // Control the detail provided in goroutine blocking profiles by // calling runtime.SetBlockProfileRate with n. // See 'go doc runtime.SetBlockProfileRate'. // The profiler aims to sample, on average, one blocking event every // n nanoseconds the program spends blocked. By default, // if -test.blockprofile is set without this flag, all blocking events // are recorded, equivalent to -test.blockprofilerate=1. // // -coverprofile cover.out // Write a coverage profile to the file after all tests have passed. // Sets -cover. // // -cpuprofile cpu.out // Write a CPU profile to the specified file before exiting. // Writes test binary as -c would. // // -memprofile mem.out // Write a memory profile to the file after all tests have passed. // Writes test binary as -c would. // // -memprofilerate n // Enable more precise (and expensive) memory profiles by setting // runtime.MemProfileRate. See 'go doc runtime.MemProfileRate'. // To profile all memory allocations, use -test.memprofilerate=1 // and pass --alloc_space flag to the pprof tool. // // -mutexprofile mutex.out // Write a mutex contention profile to the specified file // when all tests are complete. // Writes test binary as -c would. // // -mutexprofilefraction n // Sample 1 in n stack traces of goroutines holding a // contended mutex. // // -outputdir directory // Place output files from profiling in the specified directory, // by default the directory in which "go test" is running. // // -trace trace.out // Write an execution trace to the specified file before exiting. // // Each of these flags is also recognized with an optional 'test.' prefix, // as in -test.v. When invoking the generated test binary (the result of // 'go test -c') directly, however, the prefix is mandatory. // // The 'go test' command rewrites or removes recognized flags, // as appropriate, both before and after the optional package list, // before invoking the test binary. // // For instance, the command // // go test -v -myflag testdata -cpuprofile=prof.out -x // // will compile the test binary and then run it as // // pkg.test -test.v -myflag testdata -test.cpuprofile=prof.out // // (The -x flag is removed because it applies only to the go command's // execution, not to the test itself.) // // The test flags that generate profiles (other than for coverage) also // leave the test binary in pkg.test for use when analyzing the profiles. // // When 'go test' runs a test binary, it does so from within the // corresponding package's source code directory. Depending on the test, // it may be necessary to do the same when invoking a generated test // binary directly. // // The command-line package list, if present, must appear before any // flag not known to the go test command. Continuing the example above, // the package list would have to appear before -myflag, but could appear // on either side of -v. // // To keep an argument for a test binary from being interpreted as a // known flag or a package name, use -args (see 'go help test') which // passes the remainder of the command line through to the test binary // uninterpreted and unaltered. // // For instance, the command // // go test -v -args -x -v // // will compile the test binary and then run it as // // pkg.test -test.v -x -v // // Similarly, // // go test -args math // // will compile the test binary and then run it as // // pkg.test math // // In the first example, the -x and the second -v are passed through to the // test binary unchanged and with no effect on the go command itself. // In the second example, the argument math is passed through to the test // binary, instead of being interpreted as the package list. // // // Description of testing functions // // The 'go test' command expects to find test, benchmark, and example functions // in the "*_test.go" files corresponding to the package under test. // // A test function is one named TestXXX (where XXX is any alphanumeric string // not starting with a lower case letter) and should have the signature, // // func TestXXX(t *testing.T) { ... } // // A benchmark function is one named BenchmarkXXX and should have the signature, // // func BenchmarkXXX(b *testing.B) { ... } // // An example function is similar to a test function but, instead of using // *testing.T to report success or failure, prints output to os.Stdout. // If the last comment in the function starts with "Output:" then the output // is compared exactly against the comment (see examples below). If the last // comment begins with "Unordered output:" then the output is compared to the // comment, however the order of the lines is ignored. An example with no such // comment is compiled but not executed. An example with no text after // "Output:" is compiled, executed, and expected to produce no output. // // Godoc displays the body of ExampleXXX to demonstrate the use // of the function, constant, or variable XXX. An example of a method M with // receiver type T or *T is named ExampleT_M. There may be multiple examples // for a given function, constant, or variable, distinguished by a trailing _xxx, // where xxx is a suffix not beginning with an upper case letter. // // Here is an example of an example: // // func ExamplePrintln() { // Println("The output of\nthis example.") // // Output: The output of // // this example. // } // // Here is another example where the ordering of the output is ignored: // // func ExamplePerm() { // for _, value := range Perm(4) { // fmt.Println(value) // } // // // Unordered output: 4 // // 2 // // 1 // // 3 // // 0 // } // // The entire test file is presented as the example when it contains a single // example function, at least one other function, type, variable, or constant // declaration, and no test or benchmark functions. // // See the documentation of the testing package for more information. // // package main