func main() {
flag.Usage = usage
flag.Parse()
// use file system of underlying OS
fs.Bind("/", vfs.OS(*goroot), "/", vfs.BindReplace)
// Bind $GOPATH trees into Go root.
for _, p := range filepath.SplitList(build.Default.GOPATH) {
fs.Bind("/src/pkg", vfs.OS(p), "/src", vfs.BindAfter)
}
corpus := godoc.NewCorpus(fs)
corpus.Verbose = *verbose
pres = godoc.NewPresentation(corpus)
pres.TabWidth = *tabWidth
pres.ShowTimestamps = *showTimestamps
pres.ShowPlayground = *showPlayground
pres.ShowExamples = *showExamples
pres.DeclLinks = *declLinks
pres.SrcMode = false
pres.HTMLMode = false
readTemplates(pres, false)
if err := godoc.CommandLine(os.Stdout, fs, pres, flag.Args()); err != nil {
log.Print(err)
}
}
func main() {
flag.Parse()
fs := asset.Fs()
if err := asset.Error(); err != nil {
log.Println(err)
fs = vfs.OS(".")
}
f, err := fs.Open("/sounds/click.raw")
if err != nil {
log.Fatal(err)
}
dat, err := ioutil.ReadAll(f)
if err != nil {
log.Fatal(err)
}
f.Close()
fsb := float64((rate * 60) / float64(*tempo))
log.Println("Samples per beat", fsb)
spb := int(fsb)
if len(dat)%2 != 0 {
log.Fatal("raw file contains an odd number of bytes")
}
pad := spb - len(dat)/2
log.Println("len dat", len(dat), "len beat", spb, "extra is", pad)
for i := 0; i < pad+spb; i++ {
dat = append(dat, []byte{0, 0}...)
}
fourbars := []byte{}
fourbars = append(fourbars, dat...)
fourbars = append(fourbars, dat...)
fourbars = append(fourbars, dat...)
fourbars = append(fourbars, dat...)
go func() {
ln, err := net.Listen("tcp", ":8080")
if err != nil {
// handle error
}
for {
conn, err := ln.Accept()
if err != nil {
// handle error
continue
}
go handleConnection(conn)
}
}()
for {
/* for _, d := range dat {
//fmt.Printf("%c", d) %c is unicode char not binary
binary.Write(os.Stdout, binary.LittleEndian, byte(d))
}
*/
_, _ = os.Stdout.Write(fourbars)
}
}
// paths determines the paths to use.
//
// If we are passed an operating system path like . or ./foo or /foo/bar or c:\mysrc,
// we need to map that path somewhere in the fs name space so that routines
// like getPageInfo will see it. We use the arbitrarily-chosen virtual path "/target"
// for this. That is, if we get passed a directory like the above, we map that
// directory so that getPageInfo sees it as /target.
// Returns the absolute and relative paths.
func paths(fs vfs.NameSpace, pres *Presentation, path string) (string, string) {
if filepath.IsAbs(path) {
fs.Bind(target, vfs.OS(path), "/", vfs.BindReplace)
return target, target
}
if build.IsLocalImport(path) {
cwd, _ := os.Getwd() // ignore errors
path = filepath.Join(cwd, path)
fs.Bind(target, vfs.OS(path), "/", vfs.BindReplace)
return target, target
}
if bp, _ := build.Import(path, "", build.FindOnly); bp.Dir != "" && bp.ImportPath != "" {
fs.Bind(target, vfs.OS(bp.Dir), "/", vfs.BindReplace)
return target, bp.ImportPath
}
return pathpkg.Join(pres.PkgFSRoot(), path), path
}
func main() {
flag.Usage = usage
flag.Parse()
playEnabled = *showPlayground
// Check usage: either server and no args, command line and args, or index creation mode
if (*httpAddr != "" || *urlFlag != "") != (flag.NArg() == 0) && !*writeIndex {
usage()
}
var fsGate chan bool
fsGate = make(chan bool, 20)
// Determine file system to use.
if *zipfile == "" {
// use file system of underlying OS
fs.Bind("/", gatefs.New(vfs.OS(*goroot), fsGate), "/", vfs.BindReplace)
} else {
// use file system specified via .zip file (path separator must be '/')
rc, err := zip.OpenReader(*zipfile)
if err != nil {
log.Fatalf("%s: %s\n", *zipfile, err)
}
defer rc.Close() // be nice (e.g., -writeIndex mode)
fs.Bind("/", zipfs.New(rc, *zipfile), *goroot, vfs.BindReplace)
}
if *templateDir != "" {
fs.Bind("/lib/godoc", vfs.OS(*templateDir), "/", vfs.BindBefore)
} else {
fs.Bind("/lib/godoc", mapfs.New(static.Files), "/", vfs.BindReplace)
}
// Bind $GOPATH trees into Go root.
for _, p := range filepath.SplitList(build.Default.GOPATH) {
fs.Bind("/src/pkg", gatefs.New(vfs.OS(p), fsGate), "/src", vfs.BindAfter)
}
httpMode := *httpAddr != ""
var typeAnalysis, pointerAnalysis bool
if *analysisFlag != "" {
for _, a := range strings.Split(*analysisFlag, ",") {
switch a {
case "type":
typeAnalysis = true
case "pointer":
pointerAnalysis = true
default:
log.Fatalf("unknown analysis: %s", a)
}
}
}
corpus := godoc.NewCorpus(fs)
corpus.Verbose = *verbose
corpus.MaxResults = *maxResults
corpus.IndexEnabled = *indexEnabled && httpMode
if *maxResults == 0 {
corpus.IndexFullText = false
}
corpus.IndexFiles = *indexFiles
corpus.IndexThrottle = *indexThrottle
if *writeIndex {
corpus.IndexThrottle = 1.0
}
if *writeIndex || httpMode || *urlFlag != "" {
if err := corpus.Init(); err != nil {
log.Fatal(err)
}
}
pres = godoc.NewPresentation(corpus)
pres.TabWidth = *tabWidth
pres.ShowTimestamps = *showTimestamps
pres.ShowPlayground = *showPlayground
pres.ShowExamples = *showExamples
pres.DeclLinks = *declLinks
pres.SrcMode = *srcMode
pres.HTMLMode = *html
if *notesRx != "" {
pres.NotesRx = regexp.MustCompile(*notesRx)
}
readTemplates(pres, httpMode || *urlFlag != "")
registerHandlers(pres)
if *writeIndex {
// Write search index and exit.
if *indexFiles == "" {
log.Fatal("no index file specified")
}
log.Println("initialize file systems")
*verbose = true // want to see what happens
corpus.UpdateIndex()
log.Println("writing index file", *indexFiles)
f, err := os.Create(*indexFiles)
if err != nil {
log.Fatal(err)
}
index, _ := corpus.CurrentIndex()
_, err = index.WriteTo(f)
if err != nil {
log.Fatal(err)
}
log.Println("done")
return
}
// Print content that would be served at the URL *urlFlag.
if *urlFlag != "" {
handleURLFlag()
return
}
if httpMode {
// HTTP server mode.
var handler http.Handler = http.DefaultServeMux
if *verbose {
log.Printf("Go Documentation Server")
log.Printf("version = %s", runtime.Version())
log.Printf("address = %s", *httpAddr)
log.Printf("goroot = %s", *goroot)
log.Printf("tabwidth = %d", *tabWidth)
switch {
case !*indexEnabled:
log.Print("search index disabled")
case *maxResults > 0:
log.Printf("full text index enabled (maxresults = %d)", *maxResults)
default:
log.Print("identifier search index enabled")
}
fs.Fprint(os.Stderr)
handler = loggingHandler(handler)
}
// Initialize search index.
if *indexEnabled {
go corpus.RunIndexer()
}
// Start type/pointer analysis.
if typeAnalysis || pointerAnalysis {
go analysis.Run(pointerAnalysis, &corpus.Analysis)
}
// Start http server.
if err := http.ListenAndServe(*httpAddr, handler); err != nil {
log.Fatalf("ListenAndServe %s: %v", *httpAddr, err)
}
return
}
if *query {
handleRemoteSearch()
return
}
if err := godoc.CommandLine(os.Stdout, fs, pres, flag.Args()); err != nil {
log.Print(err)
}
}
func main() {
flag.Usage = usage
flag.Parse()
// Check usage: either server and no args, command line and args, or index creation mode
if (*httpAddr != "" || *urlFlag != "") != (flag.NArg() == 0) && !*writeIndex {
usage()
}
// Determine file system to use.
if *zipfile == "" {
// use file system of underlying OS
fs.Bind("/", vfs.OS(*goroot), "/", vfs.BindReplace)
if *templateDir != "" {
fs.Bind("/lib/godoc", vfs.OS(*templateDir), "/", vfs.BindBefore)
} else {
fs.Bind("/lib/godoc", mapfs.New(static.Files), "/", vfs.BindReplace)
}
} else {
// use file system specified via .zip file (path separator must be '/')
rc, err := zip.OpenReader(*zipfile)
if err != nil {
log.Fatalf("%s: %s\n", *zipfile, err)
}
defer rc.Close() // be nice (e.g., -writeIndex mode)
fs.Bind("/", zipfs.New(rc, *zipfile), *goroot, vfs.BindReplace)
}
// Bind $GOPATH trees into Go root.
for _, p := range filepath.SplitList(build.Default.GOPATH) {
fs.Bind("/src/pkg", vfs.OS(p), "/src", vfs.BindAfter)
}
httpMode := *httpAddr != ""
corpus := godoc.NewCorpus(fs)
corpus.Verbose = *verbose
corpus.IndexEnabled = *indexEnabled && httpMode
corpus.IndexFiles = *indexFiles
corpus.IndexThrottle = *indexThrottle
if *writeIndex {
corpus.IndexThrottle = 1.0
}
if *writeIndex || httpMode || *urlFlag != "" {
if err := corpus.Init(); err != nil {
log.Fatal(err)
}
}
pres = godoc.NewPresentation(corpus)
pres.TabWidth = *tabWidth
pres.ShowTimestamps = *showTimestamps
pres.ShowPlayground = *showPlayground
pres.ShowExamples = *showExamples
pres.DeclLinks = *declLinks
if *notesRx != "" {
pres.NotesRx = regexp.MustCompile(*notesRx)
}
readTemplates(pres, httpMode || *urlFlag != "" || *html)
registerHandlers(pres)
if *writeIndex {
// Write search index and exit.
if *indexFiles == "" {
log.Fatal("no index file specified")
}
log.Println("initialize file systems")
*verbose = true // want to see what happens
corpus.UpdateIndex()
log.Println("writing index file", *indexFiles)
f, err := os.Create(*indexFiles)
if err != nil {
log.Fatal(err)
}
index, _ := corpus.CurrentIndex()
err = index.Write(f)
if err != nil {
log.Fatal(err)
}
log.Println("done")
return
}
// Print content that would be served at the URL *urlFlag.
if *urlFlag != "" {
handleURLFlag()
return
}
if httpMode {
// HTTP server mode.
var handler http.Handler = http.DefaultServeMux
if *verbose {
log.Printf("Go Documentation Server")
log.Printf("version = %s", runtime.Version())
log.Printf("address = %s", *httpAddr)
log.Printf("goroot = %s", *goroot)
log.Printf("tabwidth = %d", *tabWidth)
switch {
case !*indexEnabled:
log.Print("search index disabled")
case *maxResults > 0:
log.Printf("full text index enabled (maxresults = %d)", *maxResults)
default:
log.Print("identifier search index enabled")
}
fs.Fprint(os.Stderr)
handler = loggingHandler(handler)
}
// Initialize search index.
if *indexEnabled {
go corpus.RunIndexer()
}
// Start http server.
if err := http.ListenAndServe(*httpAddr, handler); err != nil {
log.Fatalf("ListenAndServe %s: %v", *httpAddr, err)
}
return
}
packageText := pres.PackageText
// Command line mode.
if *html {
packageText = pres.PackageHTML
}
if *query {
handleRemoteSearch()
return
}
// Determine paths.
//
// If we are passed an operating system path like . or ./foo or /foo/bar or c:\mysrc,
// we need to map that path somewhere in the fs name space so that routines
// like getPageInfo will see it. We use the arbitrarily-chosen virtual path "/target"
// for this. That is, if we get passed a directory like the above, we map that
// directory so that getPageInfo sees it as /target.
const target = "/target"
const cmdPrefix = "cmd/"
path := flag.Arg(0)
var forceCmd bool
var abspath, relpath string
if filepath.IsAbs(path) {
fs.Bind(target, vfs.OS(path), "/", vfs.BindReplace)
abspath = target
} else if build.IsLocalImport(path) {
cwd, _ := os.Getwd() // ignore errors
path = filepath.Join(cwd, path)
fs.Bind(target, vfs.OS(path), "/", vfs.BindReplace)
abspath = target
} else if strings.HasPrefix(path, cmdPrefix) {
path = strings.TrimPrefix(path, cmdPrefix)
forceCmd = true
} else if bp, _ := build.Import(path, "", build.FindOnly); bp.Dir != "" && bp.ImportPath != "" {
fs.Bind(target, vfs.OS(bp.Dir), "/", vfs.BindReplace)
abspath = target
relpath = bp.ImportPath
} else {
abspath = pathpkg.Join(pres.PkgFSRoot(), path)
}
if relpath == "" {
relpath = abspath
}
var mode godoc.PageInfoMode
if relpath == "builtin" {
// the fake built-in package contains unexported identifiers
mode = godoc.NoFiltering | godoc.NoFactoryFuncs
}
if *srcMode {
// only filter exports if we don't have explicit command-line filter arguments
if flag.NArg() > 1 {
mode |= godoc.NoFiltering
}
mode |= godoc.ShowSource
}
// first, try as package unless forced as command
var info *godoc.PageInfo
if !forceCmd {
info = pres.GetPkgPageInfo(abspath, relpath, mode)
}
// second, try as command unless the path is absolute
// (the go command invokes godoc w/ absolute paths; don't override)
var cinfo *godoc.PageInfo
if !filepath.IsAbs(path) {
abspath = pathpkg.Join(pres.CmdFSRoot(), path)
cinfo = pres.GetCmdPageInfo(abspath, relpath, mode)
}
// determine what to use
if info == nil || info.IsEmpty() {
if cinfo != nil && !cinfo.IsEmpty() {
// only cinfo exists - switch to cinfo
info = cinfo
}
} else if cinfo != nil && !cinfo.IsEmpty() {
// both info and cinfo exist - use cinfo if info
// contains only subdirectory information
if info.PAst == nil && info.PDoc == nil {
info = cinfo
} else {
fmt.Printf("use 'godoc %s%s' for documentation on the %s command \n\n", cmdPrefix, relpath, relpath)
}
}
if info == nil {
log.Fatalf("%s: no such directory or package", flag.Arg(0))
}
if info.Err != nil {
log.Fatalf("%v", info.Err)
}
if info.PDoc != nil && info.PDoc.ImportPath == target {
// Replace virtual /target with actual argument from command line.
info.PDoc.ImportPath = flag.Arg(0)
}
// If we have more than one argument, use the remaining arguments for filtering.
if flag.NArg() > 1 {
args := flag.Args()[1:]
rx := makeRx(args)
if rx == nil {
log.Fatalf("illegal regular expression from %v", args)
}
filter := func(s string) bool { return rx.MatchString(s) }
switch {
case info.PAst != nil:
cmap := ast.NewCommentMap(info.FSet, info.PAst, info.PAst.Comments)
ast.FilterFile(info.PAst, filter)
// Special case: Don't use templates for printing
// so we only get the filtered declarations without
// package clause or extra whitespace.
for i, d := range info.PAst.Decls {
// determine the comments associated with d only
comments := cmap.Filter(d).Comments()
cn := &printer.CommentedNode{Node: d, Comments: comments}
if i > 0 {
fmt.Println()
}
if *html {
var buf bytes.Buffer
pres.WriteNode(&buf, info.FSet, cn)
godoc.FormatText(os.Stdout, buf.Bytes(), -1, true, "", nil)
} else {
pres.WriteNode(os.Stdout, info.FSet, cn)
}
fmt.Println()
}
return
case info.PDoc != nil:
info.PDoc.Filter(filter)
}
}
if err := packageText.Execute(os.Stdout, info); err != nil {
log.Printf("packageText.Execute: %s", err)
}
}
// OS returns an implementation of FileSystem reading from the tree rooted at
// root.
func OS(root string) FileSystem {
return osFS{root, vfs.OS(root)}
}