refactor/importgraph/graph.go - tools - Git at Google

 // Copyright 2014 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 importgraph computes the forward and reverse import
 // dependency graphs for all packages in a Go workspace.
 package importgraph // import "golang.org/x/tools/refactor/importgraph"

 import (
 	"go/build"
 	"sync"

 	"golang.org/x/tools/go/buildutil"
 )

 // A Graph is an import dependency graph, either forward or reverse.
 //
 // The graph maps each node (a package import path) to the set of its
 // successors in the graph.  For a forward graph, this is the set of
 // imported packages (prerequisites); for a reverse graph, it is the set
 // of importing packages (clients).
 //
 // Graph construction inspects all imports in each package's directory,
 // including those in _test.go files, so the resulting graph may be cyclic.
 type Graph map[string]map[string]bool

 func (g Graph) addEdge(from, to string) {
 	edges := g[from]
 	if edges == nil {
 		edges = make(map[string]bool)
 		g[from] = edges
 	}
 	edges[to] = true
 }

 // Search returns all the nodes of the graph reachable from
 // any of the specified roots, by following edges forwards.
 // Relationally, this is the reflexive transitive closure.
 func (g Graph) Search(roots ...string) map[string]bool {
 	seen := make(map[string]bool)
 	var visit func(x string)
 	visit = func(x string) {
 		if !seen[x] {
 			seen[x] = true
 			for y := range g[x] {
 				visit(y)
 			}
 		}
 	}
 	for _, root := range roots {
 		visit(root)
 	}
 	return seen
 }

 // Build scans the specified Go workspace and builds the forward and
 // reverse import dependency graphs for all its packages.
 // It also returns a mapping from canonical import paths to errors for packages
 // whose loading was not entirely successful.
 // A package may appear in the graph and in the errors mapping.
 // All package paths are canonical and may contain "/vendor/".
 func Build(ctxt *build.Context) (forward, reverse Graph, errors map[string]error) {
 	type importEdge struct {
 		from, to string
 	}
 	type pathError struct {
 		path string
 		err  error
 	}

 	ch := make(chan interface{})

 	go func() {
 		sema := make(chan int, 20) // I/O concurrency limiting semaphore
 		var wg sync.WaitGroup
 		buildutil.ForEachPackage(ctxt, func(path string, err error) {
 			if err != nil {
 				ch <- pathError{path, err}
 				return
 			}

 			wg.Add(1)
 			go func() {
 				defer wg.Done()

 				sema <- 1
 				bp, err := ctxt.Import(path, "", 0)
 				<-sema

 				if err != nil {
 					if _, ok := err.(*build.NoGoError); ok {
 						// empty directory is not an error
 					} else {
 						ch <- pathError{path, err}
 					}
 					// Even in error cases, Import usually returns a package.
 				}

 				// absolutize resolves an import path relative
 				// to the current package bp.
 				// The absolute form may contain "vendor".
 				//
 				// The vendoring feature slows down Build by 3×.
 				// Here are timings from a 1400 package workspace:
 				//    1100ms: current code (with vendor check)
 				//     880ms: with a nonblocking cache around ctxt.IsDir
 				//     840ms: nonblocking cache with duplicate suppression
 				//     340ms: original code (no vendor check)
 				// TODO(adonovan): optimize, somehow.
 				memo := make(map[string]string)
 				absolutize := func(path string) string {
 					canon, ok := memo[path]
 					if !ok {
 						sema <- 1
 						bp2, _ := ctxt.Import(path, bp.Dir, build.FindOnly)
 						<-sema

 						if bp2 != nil {
 							canon = bp2.ImportPath
 						} else {
 							canon = path
 						}
 						memo[path] = canon
 					}
 					return canon
 				}

 				if bp != nil {
 					for _, imp := range bp.Imports {
 						ch <- importEdge{path, absolutize(imp)}
 					}
 					for _, imp := range bp.TestImports {
 						ch <- importEdge{path, absolutize(imp)}
 					}
 					for _, imp := range bp.XTestImports {
 						ch <- importEdge{path, absolutize(imp)}
 					}
 				}

 			}()
 		})
 		wg.Wait()
 		close(ch)
 	}()

 	forward = make(Graph)
 	reverse = make(Graph)

 	for e := range ch {
 		switch e := e.(type) {
 		case pathError:
 			if errors == nil {
 				errors = make(map[string]error)
 			}
 			errors[e.path] = e.err

 		case importEdge:
 			if e.to == "C" {
 				continue // "C" is fake
 			}
 			forward.addEdge(e.from, e.to)
 			reverse.addEdge(e.to, e.from)
 		}
 	}

 	return forward, reverse, errors
 }
	// Copyright 2014 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 importgraph computes the forward and reverse import
	// dependency graphs for all packages in a Go workspace.
	package importgraph // import "golang.org/x/tools/refactor/importgraph"

	import (
	"go/build"
	"sync"

	"golang.org/x/tools/go/buildutil"
	)

	// A Graph is an import dependency graph, either forward or reverse.
	//
	// The graph maps each node (a package import path) to the set of its
	// successors in the graph. For a forward graph, this is the set of
	// imported packages (prerequisites); for a reverse graph, it is the set
	// of importing packages (clients).
	//
	// Graph construction inspects all imports in each package's directory,
	// including those in _test.go files, so the resulting graph may be cyclic.
	type Graph map[string]map[string]bool

	func (g Graph) addEdge(from, to string) {
	edges := g[from]
	if edges == nil {
	edges = make(map[string]bool)
	g[from] = edges
	}
	edges[to] = true
	}

	// Search returns all the nodes of the graph reachable from
	// any of the specified roots, by following edges forwards.
	// Relationally, this is the reflexive transitive closure.
	func (g Graph) Search(roots ...string) map[string]bool {
	seen := make(map[string]bool)
	var visit func(x string)
	visit = func(x string) {
	if !seen[x] {
	seen[x] = true
	for y := range g[x] {
	visit(y)
	}
	}
	}
	for _, root := range roots {
	visit(root)
	}
	return seen
	}

	// Build scans the specified Go workspace and builds the forward and
	// reverse import dependency graphs for all its packages.
	// It also returns a mapping from canonical import paths to errors for packages
	// whose loading was not entirely successful.
	// A package may appear in the graph and in the errors mapping.
	// All package paths are canonical and may contain "/vendor/".
	func Build(ctxt *build.Context) (forward, reverse Graph, errors map[string]error) {
	type importEdge struct {
	from, to string
	}
	type pathError struct {
	path string
	err error
	}

	ch := make(chan interface{})

	go func() {
	sema := make(chan int, 20) // I/O concurrency limiting semaphore
	var wg sync.WaitGroup
	buildutil.ForEachPackage(ctxt, func(path string, err error) {
	if err != nil {
	ch <- pathError{path, err}
	return
	}

	wg.Add(1)
	go func() {
	defer wg.Done()

	sema <- 1
	bp, err := ctxt.Import(path, "", 0)
	<-sema

	if err != nil {
	if _, ok := err.(*build.NoGoError); ok {
	// empty directory is not an error
	} else {
	ch <- pathError{path, err}
	}
	// Even in error cases, Import usually returns a package.
	}

	// absolutize resolves an import path relative
	// to the current package bp.
	// The absolute form may contain "vendor".
	//
	// The vendoring feature slows down Build by 3×.
	// Here are timings from a 1400 package workspace:
	// 1100ms: current code (with vendor check)
	// 880ms: with a nonblocking cache around ctxt.IsDir
	// 840ms: nonblocking cache with duplicate suppression
	// 340ms: original code (no vendor check)
	// TODO(adonovan): optimize, somehow.
	memo := make(map[string]string)
	absolutize := func(path string) string {
	canon, ok := memo[path]
	if !ok {
	sema <- 1
	bp2, _ := ctxt.Import(path, bp.Dir, build.FindOnly)
	<-sema

	if bp2 != nil {
	canon = bp2.ImportPath
	} else {
	canon = path
	}
	memo[path] = canon
	}
	return canon
	}

	if bp != nil {
	for _, imp := range bp.Imports {
	ch <- importEdge{path, absolutize(imp)}
	}
	for _, imp := range bp.TestImports {
	ch <- importEdge{path, absolutize(imp)}
	}
	for _, imp := range bp.XTestImports {
	ch <- importEdge{path, absolutize(imp)}
	}
	}

	}()
	})
	wg.Wait()
	close(ch)
	}()

	forward = make(Graph)
	reverse = make(Graph)

	for e := range ch {
	switch e := e.(type) {
	case pathError:
	if errors == nil {
	errors = make(map[string]error)
	}
	errors[e.path] = e.err

	case importEdge:
	if e.to == "C" {
	continue // "C" is fake
	}
	forward.addEdge(e.from, e.to)
	reverse.addEdge(e.to, e.from)
	}
	}

	return forward, reverse, errors
	}