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// Copyright 2009 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 doc extracts source code documentation from a Go AST.
package doc
import (
"go/ast"
"go/token"
"regexp"
"sort"
)
// ----------------------------------------------------------------------------
type typeDoc struct {
// len(decl.Specs) == 1, and the element type is *ast.TypeSpec
// if the type declaration hasn't been seen yet, decl is nil
decl *ast.GenDecl
// values, factory functions, and methods associated with the type
values []*ast.GenDecl // consts and vars
factories map[string]*ast.FuncDecl
methods map[string]*ast.FuncDecl
}
// docReader accumulates documentation for a single package.
// It modifies the AST: Comments (declaration documentation)
// that have been collected by the DocReader are set to nil
// in the respective AST nodes so that they are not printed
// twice (once when printing the documentation and once when
// printing the corresponding AST node).
//
type docReader struct {
doc *ast.CommentGroup // package documentation, if any
pkgName string
values []*ast.GenDecl // consts and vars
types map[string]*typeDoc
funcs map[string]*ast.FuncDecl
bugs []*ast.CommentGroup
}
func (doc *docReader) init(pkgName string) {
doc.pkgName = pkgName
doc.types = make(map[string]*typeDoc)
doc.funcs = make(map[string]*ast.FuncDecl)
}
func (doc *docReader) addDoc(comments *ast.CommentGroup) {
if doc.doc == nil {
// common case: just one package comment
doc.doc = comments
return
}
// More than one package comment: Usually there will be only
// one file with a package comment, but it's better to collect
// all comments than drop them on the floor.
// (This code isn't particularly clever - no amortized doubling is
// used - but this situation occurs rarely and is not time-critical.)
n1 := len(doc.doc.List)
n2 := len(comments.List)
list := make([]*ast.Comment, n1+1+n2) // + 1 for separator line
copy(list, doc.doc.List)
list[n1] = &ast.Comment{token.NoPos, "//"} // separator line
copy(list[n1+1:], comments.List)
doc.doc = &ast.CommentGroup{list}
}
func (doc *docReader) addType(decl *ast.GenDecl) {
spec := decl.Specs[0].(*ast.TypeSpec)
typ := doc.lookupTypeDoc(spec.Name.Name)
// typ should always be != nil since declared types
// are always named - be conservative and check
if typ != nil {
// a type should be added at most once, so typ.decl
// should be nil - if it isn't, simply overwrite it
typ.decl = decl
}
}
func (doc *docReader) lookupTypeDoc(name string) *typeDoc {
if name == "" {
return nil // no type docs for anonymous types
}
if tdoc, found := doc.types[name]; found {
return tdoc
}
// type wasn't found - add one without declaration
tdoc := &typeDoc{nil, nil, make(map[string]*ast.FuncDecl), make(map[string]*ast.FuncDecl)}
doc.types[name] = tdoc
return tdoc
}
func baseTypeName(typ ast.Expr) string {
switch t := typ.(type) {
case *ast.Ident:
// if the type is not exported, the effect to
// a client is as if there were no type name
if t.IsExported() {
return t.Name
}
case *ast.StarExpr:
return baseTypeName(t.X)
}
return ""
}
func (doc *docReader) addValue(decl *ast.GenDecl) {
// determine if decl should be associated with a type
// Heuristic: For each typed entry, determine the type name, if any.
// If there is exactly one type name that is sufficiently
// frequent, associate the decl with the respective type.
domName := ""
domFreq := 0
prev := ""
for _, s := range decl.Specs {
if v, ok := s.(*ast.ValueSpec); ok {
name := ""
switch {
case v.Type != nil:
// a type is present; determine its name
name = baseTypeName(v.Type)
case decl.Tok == token.CONST:
// no type is present but we have a constant declaration;
// use the previous type name (w/o more type information
// we cannot handle the case of unnamed variables with
// initializer expressions except for some trivial cases)
name = prev
}
if name != "" {
// entry has a named type
if domName != "" && domName != name {
// more than one type name - do not associate
// with any type
domName = ""
break
}
domName = name
domFreq++
}
prev = name
}
}
// determine values list
const threshold = 0.75
values := &doc.values
if domName != "" && domFreq >= int(float64(len(decl.Specs))*threshold) {
// typed entries are sufficiently frequent
typ := doc.lookupTypeDoc(domName)
if typ != nil {
values = &typ.values // associate with that type
}
}
*values = append(*values, decl)
}
// Helper function to set the table entry for function f. Makes sure that
// at least one f with associated documentation is stored in table, if there
// are multiple f's with the same name.
func setFunc(table map[string]*ast.FuncDecl, f *ast.FuncDecl) {
name := f.Name.Name
if g, exists := table[name]; exists && g.Doc != nil {
// a function with the same name has already been registered;
// since it has documentation, assume f is simply another
// implementation and ignore it
// TODO(gri) consider collecting all functions, or at least
// all comments
return
}
// function doesn't exist or has no documentation; use f
table[name] = f
}
func (doc *docReader) addFunc(fun *ast.FuncDecl) {
name := fun.Name.Name
// determine if it should be associated with a type
if fun.Recv != nil {
// method
typ := doc.lookupTypeDoc(baseTypeName(fun.Recv.List[0].Type))
if typ != nil {
// exported receiver type
setFunc(typ.methods, fun)
}
// otherwise don't show the method
// TODO(gri): There may be exported methods of non-exported types
// that can be called because of exported values (consts, vars, or
// function results) of that type. Could determine if that is the
// case and then show those methods in an appropriate section.
return
}
// perhaps a factory function
// determine result type, if any
if fun.Type.Results.NumFields() >= 1 {
res := fun.Type.Results.List[0]
if len(res.Names) <= 1 {
// exactly one (named or anonymous) result associated
// with the first type in result signature (there may
// be more than one result)
tname := baseTypeName(res.Type)
typ := doc.lookupTypeDoc(tname)
if typ != nil {
// named and exported result type
// Work-around for failure of heuristic: In package os
// too many functions are considered factory functions
// for the Error type. Eliminate manually for now as
// this appears to be the only important case in the
// current library where the heuristic fails.
if doc.pkgName == "os" && tname == "Error" &&
name != "NewError" && name != "NewSyscallError" {
// not a factory function for os.Error
setFunc(doc.funcs, fun) // treat as ordinary function
return
}
setFunc(typ.factories, fun)
return
}
}
}
// ordinary function
setFunc(doc.funcs, fun)
}
func (doc *docReader) addDecl(decl ast.Decl) {
switch d := decl.(type) {
case *ast.GenDecl:
if len(d.Specs) > 0 {
switch d.Tok {
case token.CONST, token.VAR:
// constants and variables are always handled as a group
doc.addValue(d)
case token.TYPE:
// types are handled individually
for _, spec := range d.Specs {
// make a (fake) GenDecl node for this TypeSpec
// (we need to do this here - as opposed to just
// for printing - so we don't lose the GenDecl
// documentation)
//
// TODO(gri): Consider just collecting the TypeSpec
// node (and copy in the GenDecl.doc if there is no
// doc in the TypeSpec - this is currently done in
// makeTypeDocs below). Simpler data structures, but
// would lose GenDecl documentation if the TypeSpec
// has documentation as well.
doc.addType(&ast.GenDecl{d.Doc, d.Pos(), token.TYPE, token.NoPos, []ast.Spec{spec}, token.NoPos})
// A new GenDecl node is created, no need to nil out d.Doc.
}
}
}
case *ast.FuncDecl:
doc.addFunc(d)
}
}
func copyCommentList(list []*ast.Comment) []*ast.Comment {
return append([]*ast.Comment(nil), list...)
}
var (
bug_markers = regexp.MustCompile("^/[/*][ \t]*BUG\\(.*\\):[ \t]*") // BUG(uid):
bug_content = regexp.MustCompile("[^ \n\r\t]+") // at least one non-whitespace char
)
// addFile adds the AST for a source file to the docReader.
// Adding the same AST multiple times is a no-op.
//
func (doc *docReader) addFile(src *ast.File) {
// add package documentation
if src.Doc != nil {
doc.addDoc(src.Doc)
src.Doc = nil // doc consumed - remove from ast.File node
}
// add all declarations
for _, decl := range src.Decls {
doc.addDecl(decl)
}
// collect BUG(...) comments
for _, c := range src.Comments {
text := c.List[0].Text
if m := bug_markers.FindStringIndex(text); m != nil {
// found a BUG comment; maybe empty
if btxt := text[m[1]:]; bug_content.MatchString(btxt) {
// non-empty BUG comment; collect comment without BUG prefix
list := copyCommentList(c.List)
list[0].Text = text[m[1]:]
doc.bugs = append(doc.bugs, &ast.CommentGroup{list})
}
}
}
src.Comments = nil // consumed unassociated comments - remove from ast.File node
}
func NewFileDoc(file *ast.File) *PackageDoc {
var r docReader
r.init(file.Name.Name)
r.addFile(file)
return r.newDoc("", nil)
}
func NewPackageDoc(pkg *ast.Package, importpath string) *PackageDoc {
var r docReader
r.init(pkg.Name)
filenames := make([]string, len(pkg.Files))
i := 0
for filename, f := range pkg.Files {
r.addFile(f)
filenames[i] = filename
i++
}
return r.newDoc(importpath, filenames)
}
// ----------------------------------------------------------------------------
// Conversion to external representation
// ValueDoc is the documentation for a group of declared
// values, either vars or consts.
//
type ValueDoc struct {
Doc string
Decl *ast.GenDecl
order int
}
type sortValueDoc []*ValueDoc
func (p sortValueDoc) Len() int { return len(p) }
func (p sortValueDoc) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
func declName(d *ast.GenDecl) string {
if len(d.Specs) != 1 {
return ""
}
switch v := d.Specs[0].(type) {
case *ast.ValueSpec:
return v.Names[0].Name
case *ast.TypeSpec:
return v.Name.Name
}
return ""
}
func (p sortValueDoc) Less(i, j int) bool {
// sort by name
// pull blocks (name = "") up to top
// in original order
if ni, nj := declName(p[i].Decl), declName(p[j].Decl); ni != nj {
return ni < nj
}
return p[i].order < p[j].order
}
func makeValueDocs(list []*ast.GenDecl, tok token.Token) []*ValueDoc {
d := make([]*ValueDoc, len(list)) // big enough in any case
n := 0
for i, decl := range list {
if decl.Tok == tok {
d[n] = &ValueDoc{CommentText(decl.Doc), decl, i}
n++
decl.Doc = nil // doc consumed - removed from AST
}
}
d = d[0:n]
sort.Sort(sortValueDoc(d))
return d
}
// FuncDoc is the documentation for a func declaration,
// either a top-level function or a method function.
//
type FuncDoc struct {
Doc string
Recv ast.Expr // TODO(rsc): Would like string here
Name string
Decl *ast.FuncDecl
}
type sortFuncDoc []*FuncDoc
func (p sortFuncDoc) Len() int { return len(p) }
func (p sortFuncDoc) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
func (p sortFuncDoc) Less(i, j int) bool { return p[i].Name < p[j].Name }
func makeFuncDocs(m map[string]*ast.FuncDecl) []*FuncDoc {
d := make([]*FuncDoc, len(m))
i := 0
for _, f := range m {
doc := new(FuncDoc)
doc.Doc = CommentText(f.Doc)
f.Doc = nil // doc consumed - remove from ast.FuncDecl node
if f.Recv != nil {
doc.Recv = f.Recv.List[0].Type
}
doc.Name = f.Name.Name
doc.Decl = f
d[i] = doc
i++
}
sort.Sort(sortFuncDoc(d))
return d
}
// TypeDoc is the documentation for a declared type.
// Consts and Vars are sorted lists of constants and variables of (mostly) that type.
// Factories is a sorted list of factory functions that return that type.
// Methods is a sorted list of method functions on that type.
type TypeDoc struct {
Doc string
Type *ast.TypeSpec
Consts []*ValueDoc
Vars []*ValueDoc
Factories []*FuncDoc
Methods []*FuncDoc
Decl *ast.GenDecl
order int
}
type sortTypeDoc []*TypeDoc
func (p sortTypeDoc) Len() int { return len(p) }
func (p sortTypeDoc) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
func (p sortTypeDoc) Less(i, j int) bool {
// sort by name
// pull blocks (name = "") up to top
// in original order
if ni, nj := p[i].Type.Name.Name, p[j].Type.Name.Name; ni != nj {
return ni < nj
}
return p[i].order < p[j].order
}
// NOTE(rsc): This would appear not to be correct for type ( )
// blocks, but the doc extractor above has split them into
// individual declarations.
func (doc *docReader) makeTypeDocs(m map[string]*typeDoc) []*TypeDoc {
d := make([]*TypeDoc, len(m))
i := 0
for _, old := range m {
// all typeDocs should have a declaration associated with
// them after processing an entire package - be conservative
// and check
if decl := old.decl; decl != nil {
typespec := decl.Specs[0].(*ast.TypeSpec)
t := new(TypeDoc)
doc := typespec.Doc
typespec.Doc = nil // doc consumed - remove from ast.TypeSpec node
if doc == nil {
// no doc associated with the spec, use the declaration doc, if any
doc = decl.Doc
}
decl.Doc = nil // doc consumed - remove from ast.Decl node
t.Doc = CommentText(doc)
t.Type = typespec
t.Consts = makeValueDocs(old.values, token.CONST)
t.Vars = makeValueDocs(old.values, token.VAR)
t.Factories = makeFuncDocs(old.factories)
t.Methods = makeFuncDocs(old.methods)
t.Decl = old.decl
t.order = i
d[i] = t
i++
} else {
// no corresponding type declaration found - move any associated
// values, factory functions, and methods back to the top-level
// so that they are not lost (this should only happen if a package
// file containing the explicit type declaration is missing or if
// an unqualified type name was used after a "." import)
// 1) move values
doc.values = append(doc.values, old.values...)
// 2) move factory functions
for name, f := range old.factories {
doc.funcs[name] = f
}
// 3) move methods
for name, f := range old.methods {
// don't overwrite functions with the same name
if _, found := doc.funcs[name]; !found {
doc.funcs[name] = f
}
}
}
}
d = d[0:i] // some types may have been ignored
sort.Sort(sortTypeDoc(d))
return d
}
func makeBugDocs(list []*ast.CommentGroup) []string {
d := make([]string, len(list))
for i, g := range list {
d[i] = CommentText(g)
}
return d
}
// PackageDoc is the documentation for an entire package.
//
type PackageDoc struct {
PackageName string
ImportPath string
Filenames []string
Doc string
Consts []*ValueDoc
Types []*TypeDoc
Vars []*ValueDoc
Funcs []*FuncDoc
Bugs []string
}
// newDoc returns the accumulated documentation for the package.
//
func (doc *docReader) newDoc(importpath string, filenames []string) *PackageDoc {
p := new(PackageDoc)
p.PackageName = doc.pkgName
p.ImportPath = importpath
sort.SortStrings(filenames)
p.Filenames = filenames
p.Doc = CommentText(doc.doc)
// makeTypeDocs may extend the list of doc.values and
// doc.funcs and thus must be called before any other
// function consuming those lists
p.Types = doc.makeTypeDocs(doc.types)
p.Consts = makeValueDocs(doc.values, token.CONST)
p.Vars = makeValueDocs(doc.values, token.VAR)
p.Funcs = makeFuncDocs(doc.funcs)
p.Bugs = makeBugDocs(doc.bugs)
return p
}
// ----------------------------------------------------------------------------
// Filtering by name
type Filter func(string) bool
func matchDecl(d *ast.GenDecl, f Filter) bool {
for _, d := range d.Specs {
switch v := d.(type) {
case *ast.ValueSpec:
for _, name := range v.Names {
if f(name.Name) {
return true
}
}
case *ast.TypeSpec:
if f(v.Name.Name) {
return true
}
}
}
return false
}
func filterValueDocs(a []*ValueDoc, f Filter) []*ValueDoc {
w := 0
for _, vd := range a {
if matchDecl(vd.Decl, f) {
a[w] = vd
w++
}
}
return a[0:w]
}
func filterFuncDocs(a []*FuncDoc, f Filter) []*FuncDoc {
w := 0
for _, fd := range a {
if f(fd.Name) {
a[w] = fd
w++
}
}
return a[0:w]
}
func filterTypeDocs(a []*TypeDoc, f Filter) []*TypeDoc {
w := 0
for _, td := range a {
n := 0 // number of matches
if matchDecl(td.Decl, f) {
n = 1
} else {
// type name doesn't match, but we may have matching consts, vars, factories or methods
td.Consts = filterValueDocs(td.Consts, f)
td.Vars = filterValueDocs(td.Vars, f)
td.Factories = filterFuncDocs(td.Factories, f)
td.Methods = filterFuncDocs(td.Methods, f)
n += len(td.Consts) + len(td.Vars) + len(td.Factories) + len(td.Methods)
}
if n > 0 {
a[w] = td
w++
}
}
return a[0:w]
}
// Filter eliminates documentation for names that don't pass through the filter f.
// TODO: Recognize "Type.Method" as a name.
//
func (p *PackageDoc) Filter(f Filter) {
p.Consts = filterValueDocs(p.Consts, f)
p.Vars = filterValueDocs(p.Vars, f)
p.Types = filterTypeDocs(p.Types, f)
p.Funcs = filterFuncDocs(p.Funcs, f)
p.Doc = "" // don't show top-level package doc
}
|