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go/doc: revert API change (per former discussion) and cleanup

Separating Method from Func made the code only more complicated
without adding much to the useability/readability of the API.
Reverted to where it was, but leaving the new method-specific
fields Orig and Level.

Former clients (godoc) of doc.Method only used the Func fields;
and because Func was embedded, no changes are needed with respect
to the removal of Method.

Changed type of Func.Recv from ast.Expr to string. This was a
long-standing TODO. Also implemented Func.Orig field (another TODO).

No further go/doc API changes are expected for Go 1.

R=rsc, r, r
CC=golang-dev
https://golang.org/cl/5577043
This commit is contained in:
Robert Griesemer 2012-01-25 16:48:06 -08:00
parent 1e09031f7f
commit d571c5ca78
6 changed files with 88 additions and 131 deletions

View File

@ -946,9 +946,8 @@ The type names of the <a href="go/doc/"><code>go/doc</code></a> package have bee
streamlined by removing the <code>Doc</code> suffix: <code>PackageDoc</code>
is now <code>Package</code>, <code>ValueDoc</code> is <code>Value</code>, etc.
Also, all types now consistently have a <code>Name</code> field (or <code>Names</code>,
in the case of type <code>Value</code>), <code>Type.Factories</code> has become
<code>Type.Funcs</code>, and there is a new type <code>Method</code> that describes
methods in more detail.
in the case of type <code>Value</code>) and <code>Type.Factories</code> has become
<code>Type.Funcs</code>.
Instead of calling <code>doc.NewPackageDoc(pkg, importpath)</code>,
documentation for a package is created with:
</p>

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@ -849,9 +849,8 @@ The type names of the <a href="go/doc/"><code>go/doc</code></a> package have bee
streamlined by removing the <code>Doc</code> suffix: <code>PackageDoc</code>
is now <code>Package</code>, <code>ValueDoc</code> is <code>Value</code>, etc.
Also, all types now consistently have a <code>Name</code> field (or <code>Names</code>,
in the case of type <code>Value</code>), <code>Type.Factories</code> has become
<code>Type.Funcs</code>, and there is a new type <code>Method</code> that describes
methods in more detail.
in the case of type <code>Value</code>) and <code>Type.Factories</code> has become
<code>Type.Funcs</code>.
Instead of calling <code>doc.NewPackageDoc(pkg, importpath)</code>,
documentation for a package is created with:
</p>

View File

@ -108,7 +108,7 @@
{{end}}
{{range .Methods}}
{{$name_html := html .Name}}
<h3 id="{{$tname_html}}.{{$name_html}}">func ({{node_html .Recv $.FSet}}) <a href="/{{posLink_url .Decl $.FSet}}">{{$name_html}}</a></h3>
<h3 id="{{$tname_html}}.{{$name_html}}">func ({{html .Recv}}) <a href="/{{posLink_url .Decl $.FSet}}">{{$name_html}}</a></h3>
<p><code>{{node_html .Decl $.FSet}}</code></p>
{{comment_html .Doc}}
{{$name := printf "%s_%s" $tname .Name}}

View File

@ -35,14 +35,6 @@ type Value struct {
order int
}
// Method is the documentation for a method declaration.
type Method struct {
*Func
// TODO(gri) The following fields are not set at the moment.
Origin *Type // original receiver base type
Level int // embedding level; 0 means Method is not embedded
}
// Type is the documentation for type declaration.
type Type struct {
Doc string
@ -50,21 +42,23 @@ type Type struct {
Decl *ast.GenDecl
// associated declarations
Consts []*Value // sorted list of constants of (mostly) this type
Vars []*Value // sorted list of variables of (mostly) this type
Funcs []*Func // sorted list of functions returning this type
Methods []*Method // sorted list of methods (including embedded ones) of this type
order int
Consts []*Value // sorted list of constants of (mostly) this type
Vars []*Value // sorted list of variables of (mostly) this type
Funcs []*Func // sorted list of functions returning this type
Methods []*Func // sorted list of methods (including embedded ones) of this type
}
// Func is the documentation for a func declaration.
type Func struct {
Doc string
Name string
// TODO(gri) remove Recv once we switch to new implementation
Recv ast.Expr // TODO(rsc): Would like string here
Decl *ast.FuncDecl
// methods
// (for functions, these fields have the respective zero value)
Recv string // actual receiver "T" or "*T"
Orig string // original receiver "T" or "*T"
Level int // embedding level; 0 means not embedded
}
// Mode values control the operation of New.
@ -77,6 +71,8 @@ const (
)
// New computes the package documentation for the given package AST.
// New takes ownership of the AST pkg and may edit or overwrite it.
//
func New(pkg *ast.Package, importPath string, mode Mode) *Package {
var r reader
r.readPackage(pkg, mode)
@ -92,6 +88,6 @@ func New(pkg *ast.Package, importPath string, mode Mode) *Package {
Consts: sortedValues(r.values, token.CONST),
Types: sortedTypes(r.types),
Vars: sortedValues(r.values, token.VAR),
Funcs: r.funcs.sortedFuncs(),
Funcs: sortedFuncs(r.funcs),
}
}

View File

@ -71,17 +71,6 @@ func filterFuncs(a []*Func, f Filter) []*Func {
return a[0:w]
}
func filterMethods(a []*Method, f Filter) []*Method {
w := 0
for _, md := range a {
if f(md.Name) {
a[w] = md
w++
}
}
return a[0:w]
}
func filterTypes(a []*Type, f Filter) []*Type {
w := 0
for _, td := range a {
@ -93,7 +82,7 @@ func filterTypes(a []*Type, f Filter) []*Type {
td.Consts = filterValues(td.Consts, f)
td.Vars = filterValues(td.Vars, f)
td.Funcs = filterFuncs(td.Funcs, f)
td.Methods = filterMethods(td.Methods, f)
td.Methods = filterFuncs(td.Methods, f)
n += len(td.Consts) + len(td.Vars) + len(td.Funcs) + len(td.Methods)
}
if n > 0 {

View File

@ -16,44 +16,55 @@ import (
// function/method sets
//
// Internally, we treat functions like methods and collect them in method sets.
// TODO(gri): Consider eliminating the external distinction. Doesn't really buy
// much and would simplify code and API.
// methodSet describes a set of methods. Entries where Func == nil are conflict
// methodSet describes a set of methods. Entries where Decl == nil are conflict
// entries (more then one method with the same name at the same embedding level).
//
type methodSet map[string]*Method
type methodSet map[string]*Func
// set adds the function f to mset. If there are multiple f's with
// the same name, set keeps the first one with documentation.
// recvString returns a string representation of recv of the
// form "T", "*T", or "BADRECV" (if not a proper receiver type).
//
func recvString(recv ast.Expr) string {
switch t := recv.(type) {
case *ast.Ident:
return t.Name
case *ast.StarExpr:
return "*" + recvString(t.X)
}
return "BADRECV"
}
// set creates the corresponding Func for f and adds it to mset.
// If there are multiple f's with the same name, set keeps the first
// one with documentation; conflicts are ignored.
//
func (mset methodSet) set(f *ast.FuncDecl) {
name := f.Name.Name
if g, found := mset[name]; found && g.Doc != "" {
if g := mset[name]; g != nil && g.Doc != "" {
// A function with the same name has already been registered;
// since it has documentation, assume f is simply another
// implementation and ignore it. This does not happen if the
// caller is using build.ScanDir to determine the list of files
// implementing a package.
// TODO(gri) consider collecting all functions, or at least
// all comments
// caller is using go/build.ScanDir to determine the list of
// files implementing a package.
return
}
// function doesn't exist or has no documentation; use f
var recv ast.Expr
recv := ""
if f.Recv != nil {
var typ ast.Expr
// be careful in case of incorrect ASTs
if list := f.Recv.List; len(list) == 1 {
recv = list[0].Type
typ = list[0].Type
}
recv = recvString(typ)
}
mset[name] = &Method{
Func: &Func{
Doc: f.Doc.Text(),
Name: name,
Decl: f,
Recv: recv,
},
mset[name] = &Func{
Doc: f.Doc.Text(),
Name: name,
Decl: f,
Recv: recv,
Orig: recv,
}
f.Doc = nil // doc consumed - remove from AST
}
@ -62,57 +73,19 @@ func (mset methodSet) set(f *ast.FuncDecl) {
// already contains a method with the same name at the same or a higher
// level then m.
//
func (mset methodSet) add(m *Method) {
func (mset methodSet) add(m *Func) {
old := mset[m.Name]
if old == nil || m.Level < old.Level {
mset[m.Name] = m
return
}
if old != nil && m.Level == old.Level {
// conflict - mark it using a method with nil Func
mset[m.Name] = &Method{Level: m.Level}
}
}
func (mset methodSet) sortedFuncs() []*Func {
list := make([]*Func, len(mset))
i := 0
for _, m := range mset {
// exclude conflict entries
// (this should never happen for functions, but this code
// and the code in sortedMethods may be merged eventually,
// so leave it for symmetry).
if m.Func != nil {
list[i] = m.Func
i++
// conflict - mark it using a method with nil Decl
mset[m.Name] = &Func{
Name: m.Name,
Level: m.Level,
}
}
list = list[0:i]
sortBy(
func(i, j int) bool { return list[i].Name < list[j].Name },
func(i, j int) { list[i], list[j] = list[j], list[i] },
len(list),
)
return list
}
func (mset methodSet) sortedMethods() []*Method {
list := make([]*Method, len(mset))
i := 0
for _, m := range mset {
// exclude conflict entries
if m.Func != nil {
list[i] = m
i++
}
}
list = list[0:i]
sortBy(
func(i, j int) bool { return list[i].Name < list[j].Name },
func(i, j int) { list[i], list[j] = list[j], list[i] },
len(list),
)
return list
}
// ----------------------------------------------------------------------------
@ -408,9 +381,6 @@ func (r *reader) readFunc(fun *ast.FuncDecl) {
return
}
// determine funcs map with which to associate the Func for this declaration
funcs := r.funcs
// perhaps a factory function
// determine result type, if any
if fun.Type.Results.NumFields() >= 1 {
@ -422,15 +392,15 @@ func (r *reader) readFunc(fun *ast.FuncDecl) {
if n, imp := baseTypeName(res.Type); !imp && r.isVisible(n) {
if typ := r.lookupType(n); typ != nil {
// associate Func with typ
funcs = typ.funcs
typ.funcs.set(fun)
return
}
}
}
}
// associate the Func
funcs.set(fun)
fun.Doc = nil // doc consumed - remove from AST
// just an ordinary function
r.funcs.set(fun)
}
var (
@ -552,11 +522,9 @@ var predeclaredTypes = map[string]bool{
"uintptr": true,
}
func customizeRecv(m *Method, recvTypeName string, embeddedIsPtr bool, level int) *Method {
f := m.Func
func customizeRecv(f *Func, recvTypeName string, embeddedIsPtr bool, level int) *Func {
if f == nil || f.Decl == nil || f.Decl.Recv == nil || len(f.Decl.Recv.List) != 1 {
return m // shouldn't happen, but be safe
return f // shouldn't happen, but be safe
}
// copy existing receiver field and set new type
@ -579,13 +547,11 @@ func customizeRecv(m *Method, recvTypeName string, embeddedIsPtr bool, level int
// copy existing function documentation and set new declaration
newF := *f
newF.Decl = &newFuncDecl
newF.Recv = typ
newF.Recv = recvString(typ)
// the Orig field never changes
newF.Level = level
return &Method{
Func: &newF,
Origin: nil, // TODO(gri) set this
Level: level,
}
return &newF
}
// collectEmbeddedMethods collects the embedded methods from
@ -690,15 +656,9 @@ func sortedKeys(m map[string]int) []string {
// sortingName returns the name to use when sorting d into place.
//
func sortingName(d *ast.GenDecl) string {
// TODO(gri): Should actual grouping (presence of ()'s) rather
// then the number of specs determine sort criteria?
// (as is, a group w/ one element is sorted alphabetically)
if len(d.Specs) == 1 {
switch s := d.Specs[0].(type) {
case *ast.ValueSpec:
if s, ok := d.Specs[0].(*ast.ValueSpec); ok {
return s.Names[0].Name
case *ast.TypeSpec:
return s.Name.Name
}
}
return ""
@ -739,22 +699,36 @@ func sortedTypes(m map[string]*baseType) []*Type {
Decl: t.decl,
Consts: sortedValues(t.values, token.CONST),
Vars: sortedValues(t.values, token.VAR),
Funcs: t.funcs.sortedFuncs(),
Methods: t.methods.sortedMethods(),
Funcs: sortedFuncs(t.funcs),
Methods: sortedFuncs(t.methods),
}
i++
}
sortBy(
func(i, j int) bool {
if ni, nj := sortingName(list[i].Decl), sortingName(list[j].Decl); ni != nj {
return ni < nj
}
return list[i].order < list[j].order
},
func(i, j int) bool { return list[i].Name < list[j].Name },
func(i, j int) { list[i], list[j] = list[j], list[i] },
len(list),
)
return list
}
func sortedFuncs(m methodSet) []*Func {
list := make([]*Func, len(m))
i := 0
for _, m := range m {
// exclude conflict entries
if m.Decl != nil {
list[i] = m
i++
}
}
list = list[0:i]
sortBy(
func(i, j int) bool { return list[i].Name < list[j].Name },
func(i, j int) { list[i], list[j] = list[j], list[i] },
len(list),
)
return list
}