godoc/linkify.go - tools - Git at Google

 // 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.

 // This file implements LinkifyText which introduces
 // links for identifiers pointing to their declarations.
 // The approach does not cover all cases because godoc
 // doesn't have complete type information, but it's
 // reasonably good for browsing.

 package godoc

 import (
 	"fmt"
 	"go/ast"
 	"go/doc"
 	"go/token"
 	"io"
 	"strconv"
 )

 // LinkifyText HTML-escapes source text and writes it to w.
 // Identifiers that are in a "use" position (i.e., that are
 // not being declared), are wrapped with HTML links pointing
 // to the respective declaration, if possible. Comments are
 // formatted the same way as with FormatText.
 //
 func LinkifyText(w io.Writer, text []byte, n ast.Node) {
 	links := linksFor(n)

 	i := 0     // links index
 	prev := "" // prev HTML tag
 	linkWriter := func(w io.Writer, _ int, start bool) {
 		// end tag
 		if !start {
 			if prev != "" {
 				fmt.Fprintf(w, `</%s>`, prev)
 				prev = ""
 			}
 			return
 		}

 		// start tag
 		prev = ""
 		if i < len(links) {
 			switch info := links[i]; {
 			case info.path != "" && info.name == "":
 				// package path
 				fmt.Fprintf(w, `<a href="/pkg/%s/">`, info.path)
 				prev = "a"
 			case info.path != "" && info.name != "":
 				// qualified identifier
 				fmt.Fprintf(w, `<a href="/pkg/%s/#%s">`, info.path, info.name)
 				prev = "a"
 			case info.path == "" && info.name != "":
 				// local identifier
 				if info.isVal {
 					fmt.Fprintf(w, `<span id="%s">`, info.name)
 					prev = "span"
 				} else if ast.IsExported(info.name) {
 					fmt.Fprintf(w, `<a href="#%s">`, info.name)
 					prev = "a"
 				}
 			}
 			i++
 		}
 	}

 	idents := tokenSelection(text, token.IDENT)
 	comments := tokenSelection(text, token.COMMENT)
 	FormatSelections(w, text, linkWriter, idents, selectionTag, comments)
 }

 // A link describes the (HTML) link information for an identifier.
 // The zero value of a link represents "no link".
 //
 type link struct {
 	path, name string // package path, identifier name
 	isVal      bool   // identifier is defined in a const or var declaration
 }

 // linksFor returns the list of links for the identifiers used
 // by node in the same order as they appear in the source.
 //
 func linksFor(node ast.Node) (links []link) {
 	// linkMap tracks link information for each ast.Ident node. Entries may
 	// be created out of source order (for example, when we visit a parent
 	// definition node). These links are appended to the returned slice when
 	// their ast.Ident nodes are visited.
 	linkMap := make(map[*ast.Ident]link)

 	ast.Inspect(node, func(node ast.Node) bool {
 		switch n := node.(type) {
 		case *ast.Field:
 			for _, n := range n.Names {
 				linkMap[n] = link{}
 			}
 		case *ast.ImportSpec:
 			if name := n.Name; name != nil {
 				linkMap[name] = link{}
 			}
 		case *ast.ValueSpec:
 			for _, n := range n.Names {
 				linkMap[n] = link{name: n.Name, isVal: true}
 			}
 		case *ast.FuncDecl:
 			linkMap[n.Name] = link{}
 		case *ast.TypeSpec:
 			linkMap[n.Name] = link{}
 		case *ast.AssignStmt:
 			// Short variable declarations only show up if we apply
 			// this code to all source code (as opposed to exported
 			// declarations only).
 			if n.Tok == token.DEFINE {
 				// Some of the lhs variables may be re-declared,
 				// so technically they are not defs. We don't
 				// care for now.
 				for _, x := range n.Lhs {
 					// Each lhs expression should be an
 					// ident, but we are conservative and check.
 					if n, _ := x.(*ast.Ident); n != nil {
 						linkMap[n] = link{isVal: true}
 					}
 				}
 			}
 		case *ast.SelectorExpr:
 			// Detect qualified identifiers of the form pkg.ident.
 			// If anything fails we return true and collect individual
 			// identifiers instead.
 			if x, _ := n.X.(*ast.Ident); x != nil {
 				// Create links only if x is a qualified identifier.
 				if obj := x.Obj; obj != nil && obj.Kind == ast.Pkg {
 					if spec, _ := obj.Decl.(*ast.ImportSpec); spec != nil {
 						// spec.Path.Value is the import path
 						if path, err := strconv.Unquote(spec.Path.Value); err == nil {
 							// Register two links, one for the package
 							// and one for the qualified identifier.
 							linkMap[x] = link{path: path}
 							linkMap[n.Sel] = link{path: path, name: n.Sel.Name}
 						}
 					}
 				}
 			}
 		case *ast.CompositeLit:
 			// Detect field names within composite literals. These links should
 			// be prefixed by the type name.
 			fieldPath := ""
 			prefix := ""
 			switch typ := n.Type.(type) {
 			case *ast.Ident:
 				prefix = typ.Name + "."
 			case *ast.SelectorExpr:
 				if x, _ := typ.X.(*ast.Ident); x != nil {
 					// Create links only if x is a qualified identifier.
 					if obj := x.Obj; obj != nil && obj.Kind == ast.Pkg {
 						if spec, _ := obj.Decl.(*ast.ImportSpec); spec != nil {
 							// spec.Path.Value is the import path
 							if path, err := strconv.Unquote(spec.Path.Value); err == nil {
 								// Register two links, one for the package
 								// and one for the qualified identifier.
 								linkMap[x] = link{path: path}
 								linkMap[typ.Sel] = link{path: path, name: typ.Sel.Name}
 								fieldPath = path
 								prefix = typ.Sel.Name + "."
 							}
 						}
 					}
 				}
 			}
 			for _, e := range n.Elts {
 				if kv, ok := e.(*ast.KeyValueExpr); ok {
 					if k, ok := kv.Key.(*ast.Ident); ok {
 						// Note: there is some syntactic ambiguity here. We cannot determine
 						// if this is a struct literal or a map literal without type
 						// information. We assume struct literal.
 						name := prefix + k.Name
 						linkMap[k] = link{path: fieldPath, name: name}
 					}
 				}
 			}
 		case *ast.Ident:
 			if l, ok := linkMap[n]; ok {
 				links = append(links, l)
 			} else {
 				l := link{name: n.Name}
 				if n.Obj == nil && doc.IsPredeclared(n.Name) {
 					l.path = builtinPkgPath
 				}
 				links = append(links, l)
 			}
 		}
 		return true
 	})
 	return
 }
	// 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.

	// This file implements LinkifyText which introduces
	// links for identifiers pointing to their declarations.
	// The approach does not cover all cases because godoc
	// doesn't have complete type information, but it's
	// reasonably good for browsing.

	package godoc

	import (
	"fmt"
	"go/ast"
	"go/doc"
	"go/token"
	"io"
	"strconv"
	)

	// LinkifyText HTML-escapes source text and writes it to w.
	// Identifiers that are in a "use" position (i.e., that are
	// not being declared), are wrapped with HTML links pointing
	// to the respective declaration, if possible. Comments are
	// formatted the same way as with FormatText.
	//
	func LinkifyText(w io.Writer, text []byte, n ast.Node) {
	links := linksFor(n)

	i := 0 // links index
	prev := "" // prev HTML tag
	linkWriter := func(w io.Writer, _ int, start bool) {
	// end tag
	if !start {
	if prev != "" {
	fmt.Fprintf(w, `</%s>`, prev)
	prev = ""
	}
	return
	}

	// start tag
	prev = ""
	if i < len(links) {
	switch info := links[i]; {
	case info.path != "" && info.name == "":
	// package path
	fmt.Fprintf(w, `<a href="/pkg/%s/">`, info.path)
	prev = "a"
	case info.path != "" && info.name != "":
	// qualified identifier
	fmt.Fprintf(w, `<a href="/pkg/%s/#%s">`, info.path, info.name)
	prev = "a"
	case info.path == "" && info.name != "":
	// local identifier
	if info.isVal {
	fmt.Fprintf(w, `<span id="%s">`, info.name)
	prev = "span"
	} else if ast.IsExported(info.name) {
	fmt.Fprintf(w, `<a href="#%s">`, info.name)
	prev = "a"
	}
	}
	i++
	}
	}

	idents := tokenSelection(text, token.IDENT)
	comments := tokenSelection(text, token.COMMENT)
	FormatSelections(w, text, linkWriter, idents, selectionTag, comments)
	}

	// A link describes the (HTML) link information for an identifier.
	// The zero value of a link represents "no link".
	//
	type link struct {
	path, name string // package path, identifier name
	isVal bool // identifier is defined in a const or var declaration
	}

	// linksFor returns the list of links for the identifiers used
	// by node in the same order as they appear in the source.
	//
	func linksFor(node ast.Node) (links []link) {
	// linkMap tracks link information for each ast.Ident node. Entries may
	// be created out of source order (for example, when we visit a parent
	// definition node). These links are appended to the returned slice when
	// their ast.Ident nodes are visited.
	linkMap := make(map[*ast.Ident]link)

	ast.Inspect(node, func(node ast.Node) bool {
	switch n := node.(type) {
	case *ast.Field:
	for _, n := range n.Names {
	linkMap[n] = link{}
	}
	case *ast.ImportSpec:
	if name := n.Name; name != nil {
	linkMap[name] = link{}
	}
	case *ast.ValueSpec:
	for _, n := range n.Names {
	linkMap[n] = link{name: n.Name, isVal: true}
	}
	case *ast.FuncDecl:
	linkMap[n.Name] = link{}
	case *ast.TypeSpec:
	linkMap[n.Name] = link{}
	case *ast.AssignStmt:
	// Short variable declarations only show up if we apply
	// this code to all source code (as opposed to exported
	// declarations only).
	if n.Tok == token.DEFINE {
	// Some of the lhs variables may be re-declared,
	// so technically they are not defs. We don't
	// care for now.
	for _, x := range n.Lhs {
	// Each lhs expression should be an
	// ident, but we are conservative and check.
	if n, _ := x.(*ast.Ident); n != nil {
	linkMap[n] = link{isVal: true}
	}
	}
	}
	case *ast.SelectorExpr:
	// Detect qualified identifiers of the form pkg.ident.
	// If anything fails we return true and collect individual
	// identifiers instead.
	if x, _ := n.X.(*ast.Ident); x != nil {
	// Create links only if x is a qualified identifier.
	if obj := x.Obj; obj != nil && obj.Kind == ast.Pkg {
	if spec, _ := obj.Decl.(*ast.ImportSpec); spec != nil {
	// spec.Path.Value is the import path
	if path, err := strconv.Unquote(spec.Path.Value); err == nil {
	// Register two links, one for the package
	// and one for the qualified identifier.
	linkMap[x] = link{path: path}
	linkMap[n.Sel] = link{path: path, name: n.Sel.Name}
	}
	}
	}
	}
	case *ast.CompositeLit:
	// Detect field names within composite literals. These links should
	// be prefixed by the type name.
	fieldPath := ""
	prefix := ""
	switch typ := n.Type.(type) {
	case *ast.Ident:
	prefix = typ.Name + "."
	case *ast.SelectorExpr:
	if x, _ := typ.X.(*ast.Ident); x != nil {
	// Create links only if x is a qualified identifier.
	if obj := x.Obj; obj != nil && obj.Kind == ast.Pkg {
	if spec, _ := obj.Decl.(*ast.ImportSpec); spec != nil {
	// spec.Path.Value is the import path
	if path, err := strconv.Unquote(spec.Path.Value); err == nil {
	// Register two links, one for the package
	// and one for the qualified identifier.
	linkMap[x] = link{path: path}
	linkMap[typ.Sel] = link{path: path, name: typ.Sel.Name}
	fieldPath = path
	prefix = typ.Sel.Name + "."
	}
	}
	}
	}
	}
	for _, e := range n.Elts {
	if kv, ok := e.(*ast.KeyValueExpr); ok {
	if k, ok := kv.Key.(*ast.Ident); ok {
	// Note: there is some syntactic ambiguity here. We cannot determine
	// if this is a struct literal or a map literal without type
	// information. We assume struct literal.
	name := prefix + k.Name
	linkMap[k] = link{path: fieldPath, name: name}
	}
	}
	}
	case *ast.Ident:
	if l, ok := linkMap[n]; ok {
	links = append(links, l)
	} else {
	l := link{name: n.Name}
	if n.Obj == nil && doc.IsPredeclared(n.Name) {
	l.path = builtinPkgPath
	}
	links = append(links, l)
	}
	}
	return true
	})
	return
	}