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Published: May 23, 2018 License: BSD-3-Clause Imports: 31 Imported by: 0

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Index

Constants

This section is empty.

Variables

View Source
var BuildToolchain toolchain = noToolchain{}
View Source
var CmdBuild = &base.Command{
	UsageLine: "build [-o output] [-i] [build flags] [packages]",
	Short:     "compile packages and dependencies",
	Long: `
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, linux/arm64
		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 '[pattern=]arg 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 '[pattern=]arg list'
		arguments to pass on each gccgo compiler/linker invocation.
	-gcflags '[pattern=]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 '[pattern=]arg 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 space-separated 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 <arguments for asm>'.

The -asmflags, -gccgoflags, -gcflags, and -ldflags flags accept a
space-separated list of arguments to pass to an underlying tool
during the build. To embed spaces in an element in the list, surround
it with either single or double quotes. The argument list may be
preceded by a package pattern and an equal sign, which restricts
the use of that argument list to the building of packages matching
that pattern (see 'go help packages' for a description of package
patterns). Without a pattern, the argument list applies only to the
packages named on the command line. The flags may be repeated
with different patterns in order to specify different arguments for
different sets of packages. If a package matches patterns given in
multiple flags, the latest match on the command line wins.
For example, 'go build -gcflags=-S fmt' prints the disassembly
only for package fmt, while 'go build -gcflags=all=-S fmt'
prints the disassembly for fmt and all its dependencies.

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.
	`,
}
View Source
var CmdInstall = &base.Command{
	UsageLine: "install [-i] [build flags] [packages]",
	Short:     "compile and install packages and dependencies",
	Long: `
Install compiles and installs the packages named by the import paths.

The -i flag installs the dependencies of the named packages as well.

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.
	`,
}
View Source
var ExecCmd []string

ExecCmd is the command to use to run user binaries. Normally it is empty, meaning run the binaries directly. If cross-compiling and running on a remote system or simulator, it is typically go_GOOS_GOARCH_exec, with the target GOOS and GOARCH substituted. The -exec flag overrides these defaults.

View Source
var GccgoName, GccgoBin string
View Source
var VetFlags []string

VetFlags are the flags to pass to vet. The caller is expected to set them before executing any vet actions.

View Source
var VetTool string

VetTool is the path to an alternate vet tool binary. The caller is expected to set it (if needed) before executing any vet actions.

Functions

func AddBuildFlags

func AddBuildFlags(cmd *base.Command)

addBuildFlags adds the flags common to the build, clean, get, install, list, run, and test commands.

func BuildInit

func BuildInit()

func BuildInstallFunc

func BuildInstallFunc(b *Builder, a *Action) (err error)

BuildInstallFunc is the action for installing a single package or executable.

func FindExecCmd

func FindExecCmd() []string

FindExecCmd derives the value of ExecCmd to use. It returns that value and leaves ExecCmd set for direct use.

func InstallPackages

func InstallPackages(args []string, forGet bool)

Types

type Action

type Action struct {
	Mode       string                        // description of action operation
	Package    *load.Package                 // the package this action works on
	Deps       []*Action                     // actions that must happen before this one
	Func       func(*Builder, *Action) error // the action itself (nil = no-op)
	IgnoreFail bool                          // whether to run f even if dependencies fail
	TestOutput *bytes.Buffer                 // test output buffer
	Args       []string                      // additional args for runProgram

	TryCache func(*Builder, *Action) bool // callback for cache bypass

	// Generated files, directories.
	Objdir string // directory for intermediate objects
	Target string // goal of the action: the created package or executable

	Failed bool // whether the action failed
	// contains filtered or unexported fields
}

An Action represents a single action in the action graph.

func (*Action) BuildActionID

func (a *Action) BuildActionID() string

BuildActionID returns the action ID section of a's build ID.

func (*Action) BuildContentID

func (a *Action) BuildContentID() string

BuildContentID returns the content ID section of a's build ID.

func (*Action) BuildID

func (a *Action) BuildID() string

BuildID returns a's build ID.

func (*Action) BuiltTarget

func (a *Action) BuiltTarget() string

BuiltTarget returns the actual file that was built. This differs from Target when the result was cached.

type BuildMode

type BuildMode int

BuildMode specifies the build mode: are we just building things or also installing the results?

const (
	ModeBuild BuildMode = iota
	ModeInstall
	ModeBuggyInstall
)

type Builder

type Builder struct {
	WorkDir string // the temporary work directory (ends in filepath.Separator)

	Print func(args ...interface{}) (int, error)

	ComputeStaleOnly bool // compute staleness for go list; no actual build
	// contains filtered or unexported fields
}

A Builder holds global state about a build. It does not hold per-package state, because we build packages in parallel, and the builder is shared.

func (*Builder) AutoAction

func (b *Builder) AutoAction(mode, depMode BuildMode, p *load.Package) *Action

AutoAction returns the "right" action for go build or go install of p.

func (*Builder) CFlags

func (b *Builder) CFlags(p *load.Package) (cppflags, cflags, cxxflags, fflags, ldflags []string, err error)

CFlags returns the flags to use when invoking the C, C++ or Fortran compilers, or cgo.

func (*Builder) CompileAction

func (b *Builder) CompileAction(mode, depMode BuildMode, p *load.Package) *Action

CompileAction returns the action for compiling and possibly installing (according to mode) the given package. The resulting action is only for building packages (archives), never for linking executables. depMode is the action (build or install) to use when building dependencies. To turn package main into an executable, call b.Link instead.

func (*Builder) Do

func (b *Builder) Do(root *Action)

do runs the action graph rooted at root.

func (*Builder) GccCmd

func (b *Builder) GccCmd(incdir, workdir string) []string

gccCmd returns a gcc command line prefix defaultCC is defined in zdefaultcc.go, written by cmd/dist.

func (*Builder) GxxCmd

func (b *Builder) GxxCmd(incdir, workdir string) []string

gxxCmd returns a g++ command line prefix defaultCXX is defined in zdefaultcc.go, written by cmd/dist.

func (*Builder) Init

func (b *Builder) Init()

func (*Builder) LinkAction

func (b *Builder) LinkAction(mode, depMode BuildMode, p *load.Package) *Action

LinkAction returns the action for linking p into an executable and possibly installing the result (according to mode). depMode is the action (build or install) to use when compiling dependencies.

func (*Builder) Mkdir

func (b *Builder) Mkdir(dir string) error

mkdir makes the named directory.

func (*Builder) NewObjdir

func (b *Builder) NewObjdir() string

NewObjdir returns the name of a fresh object directory under b.WorkDir. It is up to the caller to call b.Mkdir on the result at an appropriate time. The result ends in a slash, so that file names in that directory can be constructed with direct string addition.

NewObjdir must be called only from a single goroutine at a time, so it is safe to call during action graph construction, but it must not be called during action graph execution.

func (*Builder) PkgconfigCmd

func (b *Builder) PkgconfigCmd() string

PkgconfigCmd returns a pkg-config binary name defaultPkgConfig is defined in zdefaultcc.go, written by cmd/dist.

func (*Builder) Showcmd

func (b *Builder) Showcmd(dir string, format string, args ...interface{})

showcmd prints the given command to standard output for the implementation of -n or -x.

func (b *Builder) Symlink(oldname, newname string) error

symlink creates a symlink newname -> oldname.

func (*Builder) VetAction

func (b *Builder) VetAction(mode, depMode BuildMode, p *load.Package) *Action

VetAction returns the action for running go vet on package p. It depends on the action for compiling p. If the caller may be causing p to be installed, it is up to the caller to make sure that the install depends on (runs after) vet.

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