1
0
mirror of https://github.com/golang/go synced 2024-11-05 15:46:11 -07:00
go/godoc/godoc.go
Agniva De Sarker 16d1af8d88 godoc: group package home page list by root
This CL groups the package list into two groups - standard library(GOROOT),
and third-party code(GOPATH).

It also wraps the list with a collapsible div header used in the package
documentation page. This makes the entire page easy to view and manage, and also
makes it consistent with the rest of the pages.

To implement this, a new function was added to the filesystem interface
which returns the root type of the filesystem. In most cases, it is either GOROOT
or GOPATH. There are other kinds of filesystems which are not used in the home page,
so additional values have been added to satisfy the interface.

A side effect of this is that the html template code has become a bit spaghetti-like
with if conditions all over. This is because the same template is used to render
a package directory as well as the package home page. A better way is to use
two separate templates for the different tasks. This cleans out a lot of the
if conditions and make for a much cleaner code. This has been taken care in CL 101295.

Fixes golang/go#3305
Fixes golang/go#15020

Change-Id: I876357dc76280a7df2ed08d7c6bc53d9a41e69ab
Reviewed-on: https://go-review.googlesource.com/95835
Run-TryBot: Andrew Bonventre <andybons@golang.org>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Andrew Bonventre <andybons@golang.org>
2018-04-10 16:41:40 +00:00

915 lines
25 KiB
Go

// Copyright 2013 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.
// Package godoc is a work-in-progress (2013-07-17) package to
// begin splitting up the godoc binary into multiple pieces.
//
// This package comment will evolve over time as this package splits
// into smaller pieces.
package godoc // import "golang.org/x/tools/godoc"
import (
"bytes"
"fmt"
"go/ast"
"go/doc"
"go/format"
"go/printer"
"go/token"
htmltemplate "html/template"
"io"
"log"
"os"
pathpkg "path"
"regexp"
"strconv"
"strings"
"text/template"
"time"
"unicode"
"unicode/utf8"
)
// Fake relative package path for built-ins. Documentation for all globals
// (not just exported ones) will be shown for packages in this directory.
const builtinPkgPath = "builtin"
// FuncMap defines template functions used in godoc templates.
//
// Convention: template function names ending in "_html" or "_url" produce
// HTML- or URL-escaped strings; all other function results may
// require explicit escaping in the template.
func (p *Presentation) FuncMap() template.FuncMap {
p.initFuncMapOnce.Do(p.initFuncMap)
return p.funcMap
}
func (p *Presentation) TemplateFuncs() template.FuncMap {
p.initFuncMapOnce.Do(p.initFuncMap)
return p.templateFuncs
}
func (p *Presentation) initFuncMap() {
if p.Corpus == nil {
panic("nil Presentation.Corpus")
}
p.templateFuncs = template.FuncMap{
"code": p.code,
}
p.funcMap = template.FuncMap{
// various helpers
"filename": filenameFunc,
"repeat": strings.Repeat,
// access to FileInfos (directory listings)
"fileInfoName": fileInfoNameFunc,
"fileInfoTime": fileInfoTimeFunc,
// access to search result information
"infoKind_html": infoKind_htmlFunc,
"infoLine": p.infoLineFunc,
"infoSnippet_html": p.infoSnippet_htmlFunc,
// formatting of AST nodes
"node": p.nodeFunc,
"node_html": p.node_htmlFunc,
"comment_html": comment_htmlFunc,
"comment_text": comment_textFunc,
"sanitize": sanitizeFunc,
// support for URL attributes
"pkgLink": pkgLinkFunc,
"srcLink": srcLinkFunc,
"posLink_url": newPosLink_urlFunc(srcPosLinkFunc),
"docLink": docLinkFunc,
"queryLink": queryLinkFunc,
"srcBreadcrumb": srcBreadcrumbFunc,
"srcToPkgLink": srcToPkgLinkFunc,
// formatting of Examples
"example_html": p.example_htmlFunc,
"example_text": p.example_textFunc,
"example_name": p.example_nameFunc,
"example_suffix": p.example_suffixFunc,
// formatting of analysis information
"callgraph_html": p.callgraph_htmlFunc,
"implements_html": p.implements_htmlFunc,
"methodset_html": p.methodset_htmlFunc,
// formatting of Notes
"noteTitle": noteTitle,
// Number operation
"multiply": multiply,
// formatting of PageInfoMode query string
"modeQueryString": modeQueryString,
// check whether to display third party section or not
"hasThirdParty": hasThirdParty,
}
if p.URLForSrc != nil {
p.funcMap["srcLink"] = p.URLForSrc
}
if p.URLForSrcPos != nil {
p.funcMap["posLink_url"] = newPosLink_urlFunc(p.URLForSrcPos)
}
if p.URLForSrcQuery != nil {
p.funcMap["queryLink"] = p.URLForSrcQuery
}
}
func multiply(a, b int) int { return a * b }
func filenameFunc(path string) string {
_, localname := pathpkg.Split(path)
return localname
}
func fileInfoNameFunc(fi os.FileInfo) string {
name := fi.Name()
if fi.IsDir() {
name += "/"
}
return name
}
func fileInfoTimeFunc(fi os.FileInfo) string {
if t := fi.ModTime(); t.Unix() != 0 {
return t.Local().String()
}
return "" // don't return epoch if time is obviously not set
}
// The strings in infoKinds must be properly html-escaped.
var infoKinds = [nKinds]string{
PackageClause: "package&nbsp;clause",
ImportDecl: "import&nbsp;decl",
ConstDecl: "const&nbsp;decl",
TypeDecl: "type&nbsp;decl",
VarDecl: "var&nbsp;decl",
FuncDecl: "func&nbsp;decl",
MethodDecl: "method&nbsp;decl",
Use: "use",
}
func infoKind_htmlFunc(info SpotInfo) string {
return infoKinds[info.Kind()] // infoKind entries are html-escaped
}
func (p *Presentation) infoLineFunc(info SpotInfo) int {
line := info.Lori()
if info.IsIndex() {
index, _ := p.Corpus.searchIndex.Get()
if index != nil {
line = index.(*Index).Snippet(line).Line
} else {
// no line information available because
// we don't have an index - this should
// never happen; be conservative and don't
// crash
line = 0
}
}
return line
}
func (p *Presentation) infoSnippet_htmlFunc(info SpotInfo) string {
if info.IsIndex() {
index, _ := p.Corpus.searchIndex.Get()
// Snippet.Text was HTML-escaped when it was generated
return index.(*Index).Snippet(info.Lori()).Text
}
return `<span class="alert">no snippet text available</span>`
}
func (p *Presentation) nodeFunc(info *PageInfo, node interface{}) string {
var buf bytes.Buffer
p.writeNode(&buf, info.FSet, node)
return buf.String()
}
func (p *Presentation) node_htmlFunc(info *PageInfo, node interface{}, linkify bool) string {
var buf1 bytes.Buffer
p.writeNode(&buf1, info.FSet, node)
var buf2 bytes.Buffer
if n, _ := node.(ast.Node); n != nil && linkify && p.DeclLinks {
LinkifyText(&buf2, buf1.Bytes(), n)
if st, name := isStructTypeDecl(n); st != nil {
addStructFieldIDAttributes(&buf2, name, st)
}
} else {
FormatText(&buf2, buf1.Bytes(), -1, true, "", nil)
}
return buf2.String()
}
// isStructTypeDecl checks whether n is a struct declaration.
// It either returns a non-nil StructType and its name, or zero values.
func isStructTypeDecl(n ast.Node) (st *ast.StructType, name string) {
gd, ok := n.(*ast.GenDecl)
if !ok || gd.Tok != token.TYPE {
return nil, ""
}
if gd.Lparen > 0 {
// Parenthesized type. Who does that, anyway?
// TODO: Reportedly gri does. Fix this to handle that too.
return nil, ""
}
if len(gd.Specs) != 1 {
return nil, ""
}
ts, ok := gd.Specs[0].(*ast.TypeSpec)
if !ok {
return nil, ""
}
st, ok = ts.Type.(*ast.StructType)
if !ok {
return nil, ""
}
return st, ts.Name.Name
}
// addStructFieldIDAttributes modifies the contents of buf such that
// all struct fields of the named struct have <span id='name.Field'>
// in them, so people can link to /#Struct.Field.
func addStructFieldIDAttributes(buf *bytes.Buffer, name string, st *ast.StructType) {
if st.Fields == nil {
return
}
// needsLink is a set of identifiers that still need to be
// linked, where value == key, to avoid an allocation in func
// linkedField.
needsLink := make(map[string]string)
for _, f := range st.Fields.List {
if len(f.Names) == 0 {
continue
}
fieldName := f.Names[0].Name
needsLink[fieldName] = fieldName
}
var newBuf bytes.Buffer
foreachLine(buf.Bytes(), func(line []byte) {
if fieldName := linkedField(line, needsLink); fieldName != "" {
fmt.Fprintf(&newBuf, `<span id="%s.%s"></span>`, name, fieldName)
delete(needsLink, fieldName)
}
newBuf.Write(line)
})
buf.Reset()
buf.Write(newBuf.Bytes())
}
// foreachLine calls fn for each line of in, where a line includes
// the trailing "\n", except on the last line, if it doesn't exist.
func foreachLine(in []byte, fn func(line []byte)) {
for len(in) > 0 {
nl := bytes.IndexByte(in, '\n')
if nl == -1 {
fn(in)
return
}
fn(in[:nl+1])
in = in[nl+1:]
}
}
// commentPrefix is the line prefix for comments after they've been HTMLified.
var commentPrefix = []byte(`<span class="comment">// `)
// linkedField determines whether the given line starts with an
// identifer in the provided ids map (mapping from identifier to the
// same identifier). The line can start with either an identifier or
// an identifier in a comment. If one matches, it returns the
// identifier that matched. Otherwise it returns the empty string.
func linkedField(line []byte, ids map[string]string) string {
line = bytes.TrimSpace(line)
// For fields with a doc string of the
// conventional form, we put the new span into
// the comment instead of the field.
// The "conventional" form is a complete sentence
// per https://golang.org/s/style#comment-sentences like:
//
// // Foo is an optional Fooer to foo the foos.
// Foo Fooer
//
// In this case, we want the #StructName.Foo
// link to make the browser go to the comment
// line "Foo is an optional Fooer" instead of
// the "Foo Fooer" line, which could otherwise
// obscure the docs above the browser's "fold".
//
// TODO: do this better, so it works for all
// comments, including unconventional ones.
if bytes.HasPrefix(line, commentPrefix) {
line = line[len(commentPrefix):]
}
id := scanIdentifier(line)
if len(id) == 0 {
// No leading identifier. Avoid map lookup for
// somewhat common case.
return ""
}
return ids[string(id)]
}
// scanIdentifier scans a valid Go identifier off the front of v and
// either returns a subslice of v if there's a valid identifier, or
// returns a zero-length slice.
func scanIdentifier(v []byte) []byte {
var n int // number of leading bytes of v belonging to an identifier
for {
r, width := utf8.DecodeRune(v[n:])
if !(isLetter(r) || n > 0 && isDigit(r)) {
break
}
n += width
}
return v[:n]
}
func isLetter(ch rune) bool {
return 'a' <= ch && ch <= 'z' || 'A' <= ch && ch <= 'Z' || ch == '_' || ch >= utf8.RuneSelf && unicode.IsLetter(ch)
}
func isDigit(ch rune) bool {
return '0' <= ch && ch <= '9' || ch >= utf8.RuneSelf && unicode.IsDigit(ch)
}
func comment_htmlFunc(comment string) string {
var buf bytes.Buffer
// TODO(gri) Provide list of words (e.g. function parameters)
// to be emphasized by ToHTML.
doc.ToHTML(&buf, comment, nil) // does html-escaping
return buf.String()
}
// punchCardWidth is the number of columns of fixed-width
// characters to assume when wrapping text. Very few people
// use terminals or cards smaller than 80 characters, so 80 it is.
// We do not try to sniff the environment or the tty to adapt to
// the situation; instead, by using a constant we make sure that
// godoc always produces the same output regardless of context,
// a consistency that is lost otherwise. For example, if we sniffed
// the environment or tty, then http://golang.org/pkg/math/?m=text
// would depend on the width of the terminal where godoc started,
// which is clearly bogus. More generally, the Unix tools that behave
// differently when writing to a tty than when writing to a file have
// a history of causing confusion (compare `ls` and `ls | cat`), and we
// want to avoid that mistake here.
const punchCardWidth = 80
func containsOnlySpace(buf []byte) bool {
isNotSpace := func(r rune) bool { return !unicode.IsSpace(r) }
return bytes.IndexFunc(buf, isNotSpace) == -1
}
func comment_textFunc(comment, indent, preIndent string) string {
var buf bytes.Buffer
doc.ToText(&buf, comment, indent, preIndent, punchCardWidth-2*len(indent))
if containsOnlySpace(buf.Bytes()) {
return ""
}
return buf.String()
}
// sanitizeFunc sanitizes the argument src by replacing newlines with
// blanks, removing extra blanks, and by removing trailing whitespace
// and commas before closing parentheses.
func sanitizeFunc(src string) string {
buf := make([]byte, len(src))
j := 0 // buf index
comma := -1 // comma index if >= 0
for i := 0; i < len(src); i++ {
ch := src[i]
switch ch {
case '\t', '\n', ' ':
// ignore whitespace at the beginning, after a blank, or after opening parentheses
if j == 0 {
continue
}
if p := buf[j-1]; p == ' ' || p == '(' || p == '{' || p == '[' {
continue
}
// replace all whitespace with blanks
ch = ' '
case ',':
comma = j
case ')', '}', ']':
// remove any trailing comma
if comma >= 0 {
j = comma
}
// remove any trailing whitespace
if j > 0 && buf[j-1] == ' ' {
j--
}
default:
comma = -1
}
buf[j] = ch
j++
}
// remove trailing blank, if any
if j > 0 && buf[j-1] == ' ' {
j--
}
return string(buf[:j])
}
type PageInfo struct {
Dirname string // directory containing the package
Err error // error or nil
GoogleCN bool // page is being served from golang.google.cn
Mode PageInfoMode // display metadata from query string
// package info
FSet *token.FileSet // nil if no package documentation
PDoc *doc.Package // nil if no package documentation
Examples []*doc.Example // nil if no example code
Notes map[string][]*doc.Note // nil if no package Notes
PAst map[string]*ast.File // nil if no AST with package exports
IsMain bool // true for package main
IsFiltered bool // true if results were filtered
// analysis info
TypeInfoIndex map[string]int // index of JSON datum for type T (if -analysis=type)
AnalysisData htmltemplate.JS // array of TypeInfoJSON values
CallGraph htmltemplate.JS // array of PCGNodeJSON values (if -analysis=pointer)
CallGraphIndex map[string]int // maps func name to index in CallGraph
// directory info
Dirs *DirList // nil if no directory information
DirTime time.Time // directory time stamp
DirFlat bool // if set, show directory in a flat (non-indented) manner
}
func (info *PageInfo) IsEmpty() bool {
return info.Err != nil || info.PAst == nil && info.PDoc == nil && info.Dirs == nil
}
func pkgLinkFunc(path string) string {
// because of the irregular mapping under goroot
// we need to correct certain relative paths
path = strings.TrimPrefix(path, "/")
path = strings.TrimPrefix(path, "src/")
path = strings.TrimPrefix(path, "pkg/")
return "pkg/" + path
}
// srcToPkgLinkFunc builds an <a> tag linking to the package
// documentation of relpath.
func srcToPkgLinkFunc(relpath string) string {
relpath = pkgLinkFunc(relpath)
relpath = pathpkg.Dir(relpath)
if relpath == "pkg" {
return `<a href="/pkg">Index</a>`
}
return fmt.Sprintf(`<a href="/%s">%s</a>`, relpath, relpath[len("pkg/"):])
}
// srcBreadcrumbFun converts each segment of relpath to a HTML <a>.
// Each segment links to its corresponding src directories.
func srcBreadcrumbFunc(relpath string) string {
segments := strings.Split(relpath, "/")
var buf bytes.Buffer
var selectedSegment string
var selectedIndex int
if strings.HasSuffix(relpath, "/") {
// relpath is a directory ending with a "/".
// Selected segment is the segment before the last slash.
selectedIndex = len(segments) - 2
selectedSegment = segments[selectedIndex] + "/"
} else {
selectedIndex = len(segments) - 1
selectedSegment = segments[selectedIndex]
}
for i := range segments[:selectedIndex] {
buf.WriteString(fmt.Sprintf(`<a href="/%s">%s</a>/`,
strings.Join(segments[:i+1], "/"),
segments[i],
))
}
buf.WriteString(`<span class="text-muted">`)
buf.WriteString(selectedSegment)
buf.WriteString(`</span>`)
return buf.String()
}
func newPosLink_urlFunc(srcPosLinkFunc func(s string, line, low, high int) string) func(info *PageInfo, n interface{}) string {
// n must be an ast.Node or a *doc.Note
return func(info *PageInfo, n interface{}) string {
var pos, end token.Pos
switch n := n.(type) {
case ast.Node:
pos = n.Pos()
end = n.End()
case *doc.Note:
pos = n.Pos
end = n.End
default:
panic(fmt.Sprintf("wrong type for posLink_url template formatter: %T", n))
}
var relpath string
var line int
var low, high int // selection offset range
if pos.IsValid() {
p := info.FSet.Position(pos)
relpath = p.Filename
line = p.Line
low = p.Offset
}
if end.IsValid() {
high = info.FSet.Position(end).Offset
}
return srcPosLinkFunc(relpath, line, low, high)
}
}
func srcPosLinkFunc(s string, line, low, high int) string {
s = srcLinkFunc(s)
var buf bytes.Buffer
template.HTMLEscape(&buf, []byte(s))
// selection ranges are of form "s=low:high"
if low < high {
fmt.Fprintf(&buf, "?s=%d:%d", low, high) // no need for URL escaping
// if we have a selection, position the page
// such that the selection is a bit below the top
line -= 10
if line < 1 {
line = 1
}
}
// line id's in html-printed source are of the
// form "L%d" where %d stands for the line number
if line > 0 {
fmt.Fprintf(&buf, "#L%d", line) // no need for URL escaping
}
return buf.String()
}
func srcLinkFunc(s string) string {
s = pathpkg.Clean("/" + s)
if !strings.HasPrefix(s, "/src/") {
s = "/src" + s
}
return s
}
// queryLinkFunc returns a URL for a line in a source file with a highlighted
// query term.
// s is expected to be a path to a source file.
// query is expected to be a string that has already been appropriately escaped
// for use in a URL query.
func queryLinkFunc(s, query string, line int) string {
url := pathpkg.Clean("/"+s) + "?h=" + query
if line > 0 {
url += "#L" + strconv.Itoa(line)
}
return url
}
func docLinkFunc(s string, ident string) string {
return pathpkg.Clean("/pkg/"+s) + "/#" + ident
}
func (p *Presentation) example_textFunc(info *PageInfo, funcName, indent string) string {
if !p.ShowExamples {
return ""
}
var buf bytes.Buffer
first := true
for _, eg := range info.Examples {
name := stripExampleSuffix(eg.Name)
if name != funcName {
continue
}
if !first {
buf.WriteString("\n")
}
first = false
// print code
cnode := &printer.CommentedNode{Node: eg.Code, Comments: eg.Comments}
config := &printer.Config{Mode: printer.UseSpaces, Tabwidth: p.TabWidth}
var buf1 bytes.Buffer
config.Fprint(&buf1, info.FSet, cnode)
code := buf1.String()
// Additional formatting if this is a function body. Unfortunately, we
// can't print statements individually because we would lose comments
// on later statements.
if n := len(code); n >= 2 && code[0] == '{' && code[n-1] == '}' {
// remove surrounding braces
code = code[1 : n-1]
// unindent
code = replaceLeadingIndentation(code, strings.Repeat(" ", p.TabWidth), indent)
}
code = strings.Trim(code, "\n")
buf.WriteString(indent)
buf.WriteString("Example:\n")
buf.WriteString(code)
buf.WriteString("\n\n")
}
return buf.String()
}
func (p *Presentation) example_htmlFunc(info *PageInfo, funcName string) string {
var buf bytes.Buffer
for _, eg := range info.Examples {
name := stripExampleSuffix(eg.Name)
if name != funcName {
continue
}
// print code
cnode := &printer.CommentedNode{Node: eg.Code, Comments: eg.Comments}
code := p.node_htmlFunc(info, cnode, true)
out := eg.Output
wholeFile := true
// Additional formatting if this is a function body.
if n := len(code); n >= 2 && code[0] == '{' && code[n-1] == '}' {
wholeFile = false
// remove surrounding braces
code = code[1 : n-1]
// unindent
code = replaceLeadingIndentation(code, strings.Repeat(" ", p.TabWidth), "")
// remove output comment
if loc := exampleOutputRx.FindStringIndex(code); loc != nil {
code = strings.TrimSpace(code[:loc[0]])
}
}
// Write out the playground code in standard Go style
// (use tabs, no comment highlight, etc).
play := ""
if eg.Play != nil && p.ShowPlayground {
var buf bytes.Buffer
if err := format.Node(&buf, info.FSet, eg.Play); err != nil {
log.Print(err)
} else {
play = buf.String()
}
}
// Drop output, as the output comment will appear in the code.
if wholeFile && play == "" {
out = ""
}
if p.ExampleHTML == nil {
out = ""
return ""
}
err := p.ExampleHTML.Execute(&buf, struct {
Name, Doc, Code, Play, Output string
GoogleCN bool
}{eg.Name, eg.Doc, code, play, out, info.GoogleCN})
if err != nil {
log.Print(err)
}
}
return buf.String()
}
// example_nameFunc takes an example function name and returns its display
// name. For example, "Foo_Bar_quux" becomes "Foo.Bar (Quux)".
func (p *Presentation) example_nameFunc(s string) string {
name, suffix := splitExampleName(s)
// replace _ with . for method names
name = strings.Replace(name, "_", ".", 1)
// use "Package" if no name provided
if name == "" {
name = "Package"
}
return name + suffix
}
// example_suffixFunc takes an example function name and returns its suffix in
// parenthesized form. For example, "Foo_Bar_quux" becomes " (Quux)".
func (p *Presentation) example_suffixFunc(name string) string {
_, suffix := splitExampleName(name)
return suffix
}
// implements_html returns the "> Implements" toggle for a package-level named type.
// Its contents are populated from JSON data by client-side JS at load time.
func (p *Presentation) implements_htmlFunc(info *PageInfo, typeName string) string {
if p.ImplementsHTML == nil {
return ""
}
index, ok := info.TypeInfoIndex[typeName]
if !ok {
return ""
}
var buf bytes.Buffer
err := p.ImplementsHTML.Execute(&buf, struct{ Index int }{index})
if err != nil {
log.Print(err)
}
return buf.String()
}
// methodset_html returns the "> Method set" toggle for a package-level named type.
// Its contents are populated from JSON data by client-side JS at load time.
func (p *Presentation) methodset_htmlFunc(info *PageInfo, typeName string) string {
if p.MethodSetHTML == nil {
return ""
}
index, ok := info.TypeInfoIndex[typeName]
if !ok {
return ""
}
var buf bytes.Buffer
err := p.MethodSetHTML.Execute(&buf, struct{ Index int }{index})
if err != nil {
log.Print(err)
}
return buf.String()
}
// callgraph_html returns the "> Call graph" toggle for a package-level func.
// Its contents are populated from JSON data by client-side JS at load time.
func (p *Presentation) callgraph_htmlFunc(info *PageInfo, recv, name string) string {
if p.CallGraphHTML == nil {
return ""
}
if recv != "" {
// Format must match (*ssa.Function).RelString().
name = fmt.Sprintf("(%s).%s", recv, name)
}
index, ok := info.CallGraphIndex[name]
if !ok {
return ""
}
var buf bytes.Buffer
err := p.CallGraphHTML.Execute(&buf, struct{ Index int }{index})
if err != nil {
log.Print(err)
}
return buf.String()
}
func noteTitle(note string) string {
return strings.Title(strings.ToLower(note))
}
func startsWithUppercase(s string) bool {
r, _ := utf8.DecodeRuneInString(s)
return unicode.IsUpper(r)
}
var exampleOutputRx = regexp.MustCompile(`(?i)//[[:space:]]*(unordered )?output:`)
// stripExampleSuffix strips lowercase braz in Foo_braz or Foo_Bar_braz from name
// while keeping uppercase Braz in Foo_Braz.
func stripExampleSuffix(name string) string {
if i := strings.LastIndex(name, "_"); i != -1 {
if i < len(name)-1 && !startsWithUppercase(name[i+1:]) {
name = name[:i]
}
}
return name
}
func splitExampleName(s string) (name, suffix string) {
i := strings.LastIndex(s, "_")
if 0 <= i && i < len(s)-1 && !startsWithUppercase(s[i+1:]) {
name = s[:i]
suffix = " (" + strings.Title(s[i+1:]) + ")"
return
}
name = s
return
}
// replaceLeadingIndentation replaces oldIndent at the beginning of each line
// with newIndent. This is used for formatting examples. Raw strings that
// span multiple lines are handled specially: oldIndent is not removed (since
// go/printer will not add any indentation there), but newIndent is added
// (since we may still want leading indentation).
func replaceLeadingIndentation(body, oldIndent, newIndent string) string {
// Handle indent at the beginning of the first line. After this, we handle
// indentation only after a newline.
var buf bytes.Buffer
if strings.HasPrefix(body, oldIndent) {
buf.WriteString(newIndent)
body = body[len(oldIndent):]
}
// Use a state machine to keep track of whether we're in a string or
// rune literal while we process the rest of the code.
const (
codeState = iota
runeState
interpretedStringState
rawStringState
)
searchChars := []string{
"'\"`\n", // codeState
`\'`, // runeState
`\"`, // interpretedStringState
"`\n", // rawStringState
// newlineState does not need to search
}
state := codeState
for {
i := strings.IndexAny(body, searchChars[state])
if i < 0 {
buf.WriteString(body)
break
}
c := body[i]
buf.WriteString(body[:i+1])
body = body[i+1:]
switch state {
case codeState:
switch c {
case '\'':
state = runeState
case '"':
state = interpretedStringState
case '`':
state = rawStringState
case '\n':
if strings.HasPrefix(body, oldIndent) {
buf.WriteString(newIndent)
body = body[len(oldIndent):]
}
}
case runeState:
switch c {
case '\\':
r, size := utf8.DecodeRuneInString(body)
buf.WriteRune(r)
body = body[size:]
case '\'':
state = codeState
}
case interpretedStringState:
switch c {
case '\\':
r, size := utf8.DecodeRuneInString(body)
buf.WriteRune(r)
body = body[size:]
case '"':
state = codeState
}
case rawStringState:
switch c {
case '`':
state = codeState
case '\n':
buf.WriteString(newIndent)
}
}
}
return buf.String()
}
// Write an AST node to w.
func (p *Presentation) writeNode(w io.Writer, fset *token.FileSet, x interface{}) {
// convert trailing tabs into spaces using a tconv filter
// to ensure a good outcome in most browsers (there may still
// be tabs in comments and strings, but converting those into
// the right number of spaces is much harder)
//
// TODO(gri) rethink printer flags - perhaps tconv can be eliminated
// with an another printer mode (which is more efficiently
// implemented in the printer than here with another layer)
mode := printer.TabIndent | printer.UseSpaces
err := (&printer.Config{Mode: mode, Tabwidth: p.TabWidth}).Fprint(&tconv{p: p, output: w}, fset, x)
if err != nil {
log.Print(err)
}
}
// WriteNode writes x to w.
// TODO(bgarcia) Is this method needed? It's just a wrapper for p.writeNode.
func (p *Presentation) WriteNode(w io.Writer, fset *token.FileSet, x interface{}) {
p.writeNode(w, fset, x)
}