// Copyright 2010 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. // The /doc/codewalk/ tree is synthesized from codewalk descriptions, // files named $GOROOT/doc/codewalk/*.xml. // For an example and a description of the format, see // http://golang.org/doc/codewalk/codewalk or run godoc -http=:6060 // and see http://localhost:6060/doc/codewalk/codewalk . // That page is itself a codewalk; the source code for it is // $GOROOT/doc/codewalk/codewalk.xml. package main import ( "bytes" "encoding/xml" "errors" "fmt" "io" "log" "net/http" "os" pathpkg "path" "regexp" "sort" "strconv" "strings" "text/template" "unicode/utf8" "code.google.com/p/go.tools/godoc" "code.google.com/p/go.tools/godoc/vfs" ) var codewalkHTML, codewalkdirHTML *template.Template // Handler for /doc/codewalk/ and below. func codewalk(w http.ResponseWriter, r *http.Request) { relpath := r.URL.Path[len("/doc/codewalk/"):] abspath := r.URL.Path r.ParseForm() if f := r.FormValue("fileprint"); f != "" { codewalkFileprint(w, r, f) return } // If directory exists, serve list of code walks. dir, err := fs.Lstat(abspath) if err == nil && dir.IsDir() { codewalkDir(w, r, relpath, abspath) return } // If file exists, serve using standard file server. if err == nil { pres.ServeFile(w, r) return } // Otherwise append .xml and hope to find // a codewalk description, but before trim // the trailing /. abspath = strings.TrimRight(abspath, "/") cw, err := loadCodewalk(abspath + ".xml") if err != nil { log.Print(err) pres.ServeError(w, r, relpath, err) return } // Canonicalize the path and redirect if changed if redirect(w, r) { return } pres.ServePage(w, godoc.Page{ Title: "Codewalk: " + cw.Title, Tabtitle: cw.Title, Body: applyTemplate(codewalkHTML, "codewalk", cw), }) } func redirect(w http.ResponseWriter, r *http.Request) (redirected bool) { canonical := pathpkg.Clean(r.URL.Path) if !strings.HasSuffix(canonical, "/") { canonical += "/" } if r.URL.Path != canonical { url := *r.URL url.Path = canonical http.Redirect(w, r, url.String(), http.StatusMovedPermanently) redirected = true } return } func applyTemplate(t *template.Template, name string, data interface{}) []byte { var buf bytes.Buffer if err := t.Execute(&buf, data); err != nil { log.Printf("%s.Execute: %s", name, err) } return buf.Bytes() } // A Codewalk represents a single codewalk read from an XML file. type Codewalk struct { Title string `xml:"title,attr"` File []string `xml:"file"` Step []*Codestep `xml:"step"` } // A Codestep is a single step in a codewalk. type Codestep struct { // Filled in from XML Src string `xml:"src,attr"` Title string `xml:"title,attr"` XML string `xml:",innerxml"` // Derived from Src; not in XML. Err error File string Lo int LoByte int Hi int HiByte int Data []byte } // String method for printing in template. // Formats file address nicely. func (st *Codestep) String() string { s := st.File if st.Lo != 0 || st.Hi != 0 { s += fmt.Sprintf(":%d", st.Lo) if st.Lo != st.Hi { s += fmt.Sprintf(",%d", st.Hi) } } return s } // loadCodewalk reads a codewalk from the named XML file. func loadCodewalk(filename string) (*Codewalk, error) { f, err := fs.Open(filename) if err != nil { return nil, err } defer f.Close() cw := new(Codewalk) d := xml.NewDecoder(f) d.Entity = xml.HTMLEntity err = d.Decode(cw) if err != nil { return nil, &os.PathError{Op: "parsing", Path: filename, Err: err} } // Compute file list, evaluate line numbers for addresses. m := make(map[string]bool) for _, st := range cw.Step { i := strings.Index(st.Src, ":") if i < 0 { i = len(st.Src) } filename := st.Src[0:i] data, err := vfs.ReadFile(fs, filename) if err != nil { st.Err = err continue } if i < len(st.Src) { lo, hi, err := addrToByteRange(st.Src[i+1:], 0, data) if err != nil { st.Err = err continue } // Expand match to line boundaries. for lo > 0 && data[lo-1] != '\n' { lo-- } for hi < len(data) && (hi == 0 || data[hi-1] != '\n') { hi++ } st.Lo = byteToLine(data, lo) st.Hi = byteToLine(data, hi-1) } st.Data = data st.File = filename m[filename] = true } // Make list of files cw.File = make([]string, len(m)) i := 0 for f := range m { cw.File[i] = f i++ } sort.Strings(cw.File) return cw, nil } // codewalkDir serves the codewalk directory listing. // It scans the directory for subdirectories or files named *.xml // and prepares a table. func codewalkDir(w http.ResponseWriter, r *http.Request, relpath, abspath string) { type elem struct { Name string Title string } dir, err := fs.ReadDir(abspath) if err != nil { log.Print(err) pres.ServeError(w, r, relpath, err) return } var v []interface{} for _, fi := range dir { name := fi.Name() if fi.IsDir() { v = append(v, &elem{name + "/", ""}) } else if strings.HasSuffix(name, ".xml") { cw, err := loadCodewalk(abspath + "/" + name) if err != nil { continue } v = append(v, &elem{name[0 : len(name)-len(".xml")], cw.Title}) } } pres.ServePage(w, godoc.Page{ Title: "Codewalks", Body: applyTemplate(codewalkdirHTML, "codewalkdir", v), }) } // codewalkFileprint serves requests with ?fileprint=f&lo=lo&hi=hi. // The filename f has already been retrieved and is passed as an argument. // Lo and hi are the numbers of the first and last line to highlight // in the response. This format is used for the middle window pane // of the codewalk pages. It is a separate iframe and does not get // the usual godoc HTML wrapper. func codewalkFileprint(w http.ResponseWriter, r *http.Request, f string) { abspath := f data, err := vfs.ReadFile(fs, abspath) if err != nil { log.Print(err) pres.ServeError(w, r, f, err) return } lo, _ := strconv.Atoi(r.FormValue("lo")) hi, _ := strconv.Atoi(r.FormValue("hi")) if hi < lo { hi = lo } lo = lineToByte(data, lo) hi = lineToByte(data, hi+1) // Put the mark 4 lines before lo, so that the iframe // shows a few lines of context before the highlighted // section. n := 4 mark := lo for ; mark > 0 && n > 0; mark-- { if data[mark-1] == '\n' { if n--; n == 0 { break } } } io.WriteString(w, `
`) template.HTMLEscape(w, data[0:mark]) io.WriteString(w, "") template.HTMLEscape(w, data[mark:lo]) if lo < hi { io.WriteString(w, "") } // addrToByte evaluates the given address starting at offset start in data. // It returns the lo and hi byte offset of the matched region within data. // See http://plan9.bell-labs.com/sys/doc/sam/sam.html Table II // for details on the syntax. func addrToByteRange(addr string, start int, data []byte) (lo, hi int, err error) { var ( dir byte prevc byte charOffset bool ) lo = start hi = start for addr != "" && err == nil { c := addr[0] switch c { default: err = errors.New("invalid address syntax near " + string(c)) case ',': if len(addr) == 1 { hi = len(data) } else { _, hi, err = addrToByteRange(addr[1:], hi, data) } return case '+', '-': if prevc == '+' || prevc == '-' { lo, hi, err = addrNumber(data, lo, hi, prevc, 1, charOffset) } dir = c case '$': lo = len(data) hi = len(data) if len(addr) > 1 { dir = '+' } case '#': charOffset = true case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': var i int for i = 1; i < len(addr); i++ { if addr[i] < '0' || addr[i] > '9' { break } } var n int n, err = strconv.Atoi(addr[0:i]) if err != nil { break } lo, hi, err = addrNumber(data, lo, hi, dir, n, charOffset) dir = 0 charOffset = false prevc = c addr = addr[i:] continue case '/': var i, j int Regexp: for i = 1; i < len(addr); i++ { switch addr[i] { case '\\': i++ case '/': j = i + 1 break Regexp } } if j == 0 { j = i } pattern := addr[1:i] lo, hi, err = addrRegexp(data, lo, hi, dir, pattern) prevc = c addr = addr[j:] continue } prevc = c addr = addr[1:] } if err == nil && dir != 0 { lo, hi, err = addrNumber(data, lo, hi, dir, 1, charOffset) } if err != nil { return 0, 0, err } return lo, hi, nil } // addrNumber applies the given dir, n, and charOffset to the address lo, hi. // dir is '+' or '-', n is the count, and charOffset is true if the syntax // used was #n. Applying +n (or +#n) means to advance n lines // (or characters) after hi. Applying -n (or -#n) means to back up n lines // (or characters) before lo. // The return value is the new lo, hi. func addrNumber(data []byte, lo, hi int, dir byte, n int, charOffset bool) (int, int, error) { switch dir { case 0: lo = 0 hi = 0 fallthrough case '+': if charOffset { pos := hi for ; n > 0 && pos < len(data); n-- { _, size := utf8.DecodeRune(data[pos:]) pos += size } if n == 0 { return pos, pos, nil } break } // find next beginning of line if hi > 0 { for hi < len(data) && data[hi-1] != '\n' { hi++ } } lo = hi if n == 0 { return lo, hi, nil } for ; hi < len(data); hi++ { if data[hi] != '\n' { continue } switch n--; n { case 1: lo = hi + 1 case 0: return lo, hi + 1, nil } } case '-': if charOffset { // Scan backward for bytes that are not UTF-8 continuation bytes. pos := lo for ; pos > 0 && n > 0; pos-- { if data[pos]&0xc0 != 0x80 { n-- } } if n == 0 { return pos, pos, nil } break } // find earlier beginning of line for lo > 0 && data[lo-1] != '\n' { lo-- } hi = lo if n == 0 { return lo, hi, nil } for ; lo >= 0; lo-- { if lo > 0 && data[lo-1] != '\n' { continue } switch n--; n { case 1: hi = lo case 0: return lo, hi, nil } } } return 0, 0, errors.New("address out of range") } // addrRegexp searches for pattern in the given direction starting at lo, hi. // The direction dir is '+' (search forward from hi) or '-' (search backward from lo). // Backward searches are unimplemented. func addrRegexp(data []byte, lo, hi int, dir byte, pattern string) (int, int, error) { re, err := regexp.Compile(pattern) if err != nil { return 0, 0, err } if dir == '-' { // Could implement reverse search using binary search // through file, but that seems like overkill. return 0, 0, errors.New("reverse search not implemented") } m := re.FindIndex(data[hi:]) if len(m) > 0 { m[0] += hi m[1] += hi } else if hi > 0 { // No match. Wrap to beginning of data. m = re.FindIndex(data) } if len(m) == 0 { return 0, 0, errors.New("no match for " + pattern) } return m[0], m[1], nil } // lineToByte returns the byte index of the first byte of line n. // Line numbers begin at 1. func lineToByte(data []byte, n int) int { if n <= 1 { return 0 } n-- for i, c := range data { if c == '\n' { if n--; n == 0 { return i + 1 } } } return len(data) } // byteToLine returns the number of the line containing the byte at index i. func byteToLine(data []byte, i int) int { l := 1 for j, c := range data { if j == i { return l } if c == '\n' { l++ } } return l }") template.HTMLEscape(w, data[lo:hi]) io.WriteString(w, "") } template.HTMLEscape(w, data[hi:]) io.WriteString(w, "