android/testing.go - LeafOS-Project/android_build_soong - Gitiles

 // Copyright 2017 Google Inc. All rights reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 package android

 import (
 	"fmt"
 	"path/filepath"
 	"regexp"
 	"sort"
 	"strings"
 	"testing"

 	"github.com/google/blueprint"
 )

 func NewTestContext() *TestContext {
 	namespaceExportFilter := func(namespace *Namespace) bool {
 		return true
 	}

 	nameResolver := NewNameResolver(namespaceExportFilter)
 	ctx := &TestContext{
 		Context:      &Context{blueprint.NewContext()},
 		NameResolver: nameResolver,
 	}

 	ctx.SetNameInterface(nameResolver)

 	ctx.postDeps = append(ctx.postDeps, registerPathDepsMutator)

 	return ctx
 }

 func NewTestArchContext() *TestContext {
 	ctx := NewTestContext()
 	ctx.preDeps = append(ctx.preDeps, registerArchMutator)
 	return ctx
 }

 type TestContext struct {
 	*Context
 	preArch, preDeps, postDeps, finalDeps []RegisterMutatorFunc
 	NameResolver                          *NameResolver
 	config                                Config
 }

 func (ctx *TestContext) PreArchMutators(f RegisterMutatorFunc) {
 	ctx.preArch = append(ctx.preArch, f)
 }

 func (ctx *TestContext) HardCodedPreArchMutators(f RegisterMutatorFunc) {
 	// Register mutator function as normal for testing.
 	ctx.PreArchMutators(f)
 }

 func (ctx *TestContext) PreDepsMutators(f RegisterMutatorFunc) {
 	ctx.preDeps = append(ctx.preDeps, f)
 }

 func (ctx *TestContext) PostDepsMutators(f RegisterMutatorFunc) {
 	ctx.postDeps = append(ctx.postDeps, f)
 }

 func (ctx *TestContext) FinalDepsMutators(f RegisterMutatorFunc) {
 	ctx.finalDeps = append(ctx.finalDeps, f)
 }

 func (ctx *TestContext) Register(config Config) {
 	ctx.SetFs(config.fs)
 	if config.mockBpList != "" {
 		ctx.SetModuleListFile(config.mockBpList)
 	}
 	registerMutators(ctx.Context.Context, ctx.preArch, ctx.preDeps, ctx.postDeps, ctx.finalDeps)

 	ctx.RegisterSingletonType("env", EnvSingleton)

 	ctx.config = config
 }

 func (ctx *TestContext) ParseFileList(rootDir string, filePaths []string) (deps []string, errs []error) {
 	// This function adapts the old style ParseFileList calls that are spread throughout the tests
 	// to the new style that takes a config.
 	return ctx.Context.ParseFileList(rootDir, filePaths, ctx.config)
 }

 func (ctx *TestContext) ParseBlueprintsFiles(rootDir string) (deps []string, errs []error) {
 	// This function adapts the old style ParseBlueprintsFiles calls that are spread throughout the
 	// tests to the new style that takes a config.
 	return ctx.Context.ParseBlueprintsFiles(rootDir, ctx.config)
 }

 func (ctx *TestContext) RegisterModuleType(name string, factory ModuleFactory) {
 	ctx.Context.RegisterModuleType(name, ModuleFactoryAdaptor(factory))
 }

 func (ctx *TestContext) RegisterSingletonType(name string, factory SingletonFactory) {
 	ctx.Context.RegisterSingletonType(name, SingletonFactoryAdaptor(factory))
 }

 func (ctx *TestContext) ModuleForTests(name, variant string) TestingModule {
 	var module Module
 	ctx.VisitAllModules(func(m blueprint.Module) {
 		if ctx.ModuleName(m) == name && ctx.ModuleSubDir(m) == variant {
 			module = m.(Module)
 		}
 	})

 	if module == nil {
 		// find all the modules that do exist
 		allModuleNames := []string{}
 		ctx.VisitAllModules(func(m blueprint.Module) {
 			allModuleNames = append(allModuleNames, m.(Module).Name()+"("+ctx.ModuleSubDir(m)+")")
 		})
 		sort.Strings(allModuleNames)

 		panic(fmt.Errorf("failed to find module %q variant %q. All modules:\n  %s",
 			name, variant, strings.Join(allModuleNames, "\n  ")))
 	}

 	return TestingModule{module}
 }

 func (ctx *TestContext) ModuleVariantsForTests(name string) []string {
 	var variants []string
 	ctx.VisitAllModules(func(m blueprint.Module) {
 		if ctx.ModuleName(m) == name {
 			variants = append(variants, ctx.ModuleSubDir(m))
 		}
 	})
 	return variants
 }

 // SingletonForTests returns a TestingSingleton for the singleton registered with the given name.
 func (ctx *TestContext) SingletonForTests(name string) TestingSingleton {
 	allSingletonNames := []string{}
 	for _, s := range ctx.Singletons() {
 		n := ctx.SingletonName(s)
 		if n == name {
 			return TestingSingleton{
 				singleton: s.(*singletonAdaptor).Singleton,
 				provider:  s.(testBuildProvider),
 			}
 		}
 		allSingletonNames = append(allSingletonNames, n)
 	}

 	panic(fmt.Errorf("failed to find singleton %q."+
 		"\nall singletons: %v", name, allSingletonNames))
 }

 type testBuildProvider interface {
 	BuildParamsForTests() []BuildParams
 	RuleParamsForTests() map[blueprint.Rule]blueprint.RuleParams
 }

 type TestingBuildParams struct {
 	BuildParams
 	RuleParams blueprint.RuleParams
 }

 func newTestingBuildParams(provider testBuildProvider, bparams BuildParams) TestingBuildParams {
 	return TestingBuildParams{
 		BuildParams: bparams,
 		RuleParams:  provider.RuleParamsForTests()[bparams.Rule],
 	}
 }

 func maybeBuildParamsFromRule(provider testBuildProvider, rule string) TestingBuildParams {
 	for _, p := range provider.BuildParamsForTests() {
 		if strings.Contains(p.Rule.String(), rule) {
 			return newTestingBuildParams(provider, p)
 		}
 	}
 	return TestingBuildParams{}
 }

 func buildParamsFromRule(provider testBuildProvider, rule string) TestingBuildParams {
 	p := maybeBuildParamsFromRule(provider, rule)
 	if p.Rule == nil {
 		panic(fmt.Errorf("couldn't find rule %q", rule))
 	}
 	return p
 }

 func maybeBuildParamsFromDescription(provider testBuildProvider, desc string) TestingBuildParams {
 	for _, p := range provider.BuildParamsForTests() {
 		if strings.Contains(p.Description, desc) {
 			return newTestingBuildParams(provider, p)
 		}
 	}
 	return TestingBuildParams{}
 }

 func buildParamsFromDescription(provider testBuildProvider, desc string) TestingBuildParams {
 	p := maybeBuildParamsFromDescription(provider, desc)
 	if p.Rule == nil {
 		panic(fmt.Errorf("couldn't find description %q", desc))
 	}
 	return p
 }

 func maybeBuildParamsFromOutput(provider testBuildProvider, file string) (TestingBuildParams, []string) {
 	var searchedOutputs []string
 	for _, p := range provider.BuildParamsForTests() {
 		outputs := append(WritablePaths(nil), p.Outputs...)
 		outputs = append(outputs, p.ImplicitOutputs...)
 		if p.Output != nil {
 			outputs = append(outputs, p.Output)
 		}
 		for _, f := range outputs {
 			if f.String() == file || f.Rel() == file {
 				return newTestingBuildParams(provider, p), nil
 			}
 			searchedOutputs = append(searchedOutputs, f.Rel())
 		}
 	}
 	return TestingBuildParams{}, searchedOutputs
 }

 func buildParamsFromOutput(provider testBuildProvider, file string) TestingBuildParams {
 	p, searchedOutputs := maybeBuildParamsFromOutput(provider, file)
 	if p.Rule == nil {
 		panic(fmt.Errorf("couldn't find output %q.\nall outputs: %v",
 			file, searchedOutputs))
 	}
 	return p
 }

 func allOutputs(provider testBuildProvider) []string {
 	var outputFullPaths []string
 	for _, p := range provider.BuildParamsForTests() {
 		outputs := append(WritablePaths(nil), p.Outputs...)
 		outputs = append(outputs, p.ImplicitOutputs...)
 		if p.Output != nil {
 			outputs = append(outputs, p.Output)
 		}
 		outputFullPaths = append(outputFullPaths, outputs.Strings()...)
 	}
 	return outputFullPaths
 }

 // TestingModule is wrapper around an android.Module that provides methods to find information about individual
 // ctx.Build parameters for verification in tests.
 type TestingModule struct {
 	module Module
 }

 // Module returns the Module wrapped by the TestingModule.
 func (m TestingModule) Module() Module {
 	return m.module
 }

 // MaybeRule finds a call to ctx.Build with BuildParams.Rule set to a rule with the given name.  Returns an empty
 // BuildParams if no rule is found.
 func (m TestingModule) MaybeRule(rule string) TestingBuildParams {
 	return maybeBuildParamsFromRule(m.module, rule)
 }

 // Rule finds a call to ctx.Build with BuildParams.Rule set to a rule with the given name.  Panics if no rule is found.
 func (m TestingModule) Rule(rule string) TestingBuildParams {
 	return buildParamsFromRule(m.module, rule)
 }

 // MaybeDescription finds a call to ctx.Build with BuildParams.Description set to a the given string.  Returns an empty
 // BuildParams if no rule is found.
 func (m TestingModule) MaybeDescription(desc string) TestingBuildParams {
 	return maybeBuildParamsFromDescription(m.module, desc)
 }

 // Description finds a call to ctx.Build with BuildParams.Description set to a the given string.  Panics if no rule is
 // found.
 func (m TestingModule) Description(desc string) TestingBuildParams {
 	return buildParamsFromDescription(m.module, desc)
 }

 // MaybeOutput finds a call to ctx.Build with a BuildParams.Output or BuildParams.Outputs whose String() or Rel()
 // value matches the provided string.  Returns an empty BuildParams if no rule is found.
 func (m TestingModule) MaybeOutput(file string) TestingBuildParams {
 	p, _ := maybeBuildParamsFromOutput(m.module, file)
 	return p
 }

 // Output finds a call to ctx.Build with a BuildParams.Output or BuildParams.Outputs whose String() or Rel()
 // value matches the provided string.  Panics if no rule is found.
 func (m TestingModule) Output(file string) TestingBuildParams {
 	return buildParamsFromOutput(m.module, file)
 }

 // AllOutputs returns all 'BuildParams.Output's and 'BuildParams.Outputs's in their full path string forms.
 func (m TestingModule) AllOutputs() []string {
 	return allOutputs(m.module)
 }

 // TestingSingleton is wrapper around an android.Singleton that provides methods to find information about individual
 // ctx.Build parameters for verification in tests.
 type TestingSingleton struct {
 	singleton Singleton
 	provider  testBuildProvider
 }

 // Singleton returns the Singleton wrapped by the TestingSingleton.
 func (s TestingSingleton) Singleton() Singleton {
 	return s.singleton
 }

 // MaybeRule finds a call to ctx.Build with BuildParams.Rule set to a rule with the given name.  Returns an empty
 // BuildParams if no rule is found.
 func (s TestingSingleton) MaybeRule(rule string) TestingBuildParams {
 	return maybeBuildParamsFromRule(s.provider, rule)
 }

 // Rule finds a call to ctx.Build with BuildParams.Rule set to a rule with the given name.  Panics if no rule is found.
 func (s TestingSingleton) Rule(rule string) TestingBuildParams {
 	return buildParamsFromRule(s.provider, rule)
 }

 // MaybeDescription finds a call to ctx.Build with BuildParams.Description set to a the given string.  Returns an empty
 // BuildParams if no rule is found.
 func (s TestingSingleton) MaybeDescription(desc string) TestingBuildParams {
 	return maybeBuildParamsFromDescription(s.provider, desc)
 }

 // Description finds a call to ctx.Build with BuildParams.Description set to a the given string.  Panics if no rule is
 // found.
 func (s TestingSingleton) Description(desc string) TestingBuildParams {
 	return buildParamsFromDescription(s.provider, desc)
 }

 // MaybeOutput finds a call to ctx.Build with a BuildParams.Output or BuildParams.Outputs whose String() or Rel()
 // value matches the provided string.  Returns an empty BuildParams if no rule is found.
 func (s TestingSingleton) MaybeOutput(file string) TestingBuildParams {
 	p, _ := maybeBuildParamsFromOutput(s.provider, file)
 	return p
 }

 // Output finds a call to ctx.Build with a BuildParams.Output or BuildParams.Outputs whose String() or Rel()
 // value matches the provided string.  Panics if no rule is found.
 func (s TestingSingleton) Output(file string) TestingBuildParams {
 	return buildParamsFromOutput(s.provider, file)
 }

 // AllOutputs returns all 'BuildParams.Output's and 'BuildParams.Outputs's in their full path string forms.
 func (s TestingSingleton) AllOutputs() []string {
 	return allOutputs(s.provider)
 }

 func FailIfErrored(t *testing.T, errs []error) {
 	t.Helper()
 	if len(errs) > 0 {
 		for _, err := range errs {
 			t.Error(err)
 		}
 		t.FailNow()
 	}
 }

 func FailIfNoMatchingErrors(t *testing.T, pattern string, errs []error) {
 	t.Helper()

 	matcher, err := regexp.Compile(pattern)
 	if err != nil {
 		t.Errorf("failed to compile regular expression %q because %s", pattern, err)
 	}

 	found := false
 	for _, err := range errs {
 		if matcher.FindStringIndex(err.Error()) != nil {
 			found = true
 			break
 		}
 	}
 	if !found {
 		t.Errorf("missing the expected error %q (checked %d error(s))", pattern, len(errs))
 		for i, err := range errs {
 			t.Errorf("errs[%d] = %s", i, err)
 		}
 	}
 }

 func CheckErrorsAgainstExpectations(t *testing.T, errs []error, expectedErrorPatterns []string) {
 	t.Helper()

 	if expectedErrorPatterns == nil {
 		FailIfErrored(t, errs)
 	} else {
 		for _, expectedError := range expectedErrorPatterns {
 			FailIfNoMatchingErrors(t, expectedError, errs)
 		}
 		if len(errs) > len(expectedErrorPatterns) {
 			t.Errorf("additional errors found, expected %d, found %d",
 				len(expectedErrorPatterns), len(errs))
 			for i, expectedError := range expectedErrorPatterns {
 				t.Errorf("expectedErrors[%d] = %s", i, expectedError)
 			}
 			for i, err := range errs {
 				t.Errorf("errs[%d] = %s", i, err)
 			}
 		}
 	}

 }

 func SetInMakeForTests(config Config) {
 	config.inMake = true
 }

 func AndroidMkEntriesForTest(t *testing.T, config Config, bpPath string, mod blueprint.Module) []AndroidMkEntries {
 	var p AndroidMkEntriesProvider
 	var ok bool
 	if p, ok = mod.(AndroidMkEntriesProvider); !ok {
 		t.Errorf("module does not implement AndroidMkEntriesProvider: " + mod.Name())
 	}

 	entriesList := p.AndroidMkEntries()
 	for i, _ := range entriesList {
 		entriesList[i].fillInEntries(config, bpPath, mod)
 	}
 	return entriesList
 }

 func AndroidMkDataForTest(t *testing.T, config Config, bpPath string, mod blueprint.Module) AndroidMkData {
 	var p AndroidMkDataProvider
 	var ok bool
 	if p, ok = mod.(AndroidMkDataProvider); !ok {
 		t.Errorf("module does not implement AndroidMkDataProvider: " + mod.Name())
 	}
 	data := p.AndroidMk()
 	data.fillInData(config, bpPath, mod)
 	return data
 }

 // Normalize the path for testing.
 //
 // If the path is relative to the build directory then return the relative path
 // to avoid tests having to deal with the dynamically generated build directory.
 //
 // Otherwise, return the supplied path as it is almost certainly a source path
 // that is relative to the root of the source tree.
 //
 // The build and source paths should be distinguishable based on their contents.
 func NormalizePathForTesting(path Path) string {
 	p := path.String()
 	if w, ok := path.(WritablePath); ok {
 		rel, err := filepath.Rel(w.buildDir(), p)
 		if err != nil {
 			panic(err)
 		}
 		return rel
 	}
 	return p
 }

 func NormalizePathsForTesting(paths Paths) []string {
 	var result []string
 	for _, path := range paths {
 		relative := NormalizePathForTesting(path)
 		result = append(result, relative)
 	}
 	return result
 }
	// Copyright 2017 Google Inc. All rights reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	package android

	import (
	"fmt"
	"path/filepath"
	"regexp"
	"sort"
	"strings"
	"testing"

	"github.com/google/blueprint"
	)

	func NewTestContext() *TestContext {
	namespaceExportFilter := func(namespace *Namespace) bool {
	return true
	}

	nameResolver := NewNameResolver(namespaceExportFilter)
	ctx := &TestContext{
	Context: &Context{blueprint.NewContext()},
	NameResolver: nameResolver,
	}

	ctx.SetNameInterface(nameResolver)

	ctx.postDeps = append(ctx.postDeps, registerPathDepsMutator)

	return ctx
	}

	func NewTestArchContext() *TestContext {
	ctx := NewTestContext()
	ctx.preDeps = append(ctx.preDeps, registerArchMutator)
	return ctx
	}

	type TestContext struct {
	*Context
	preArch, preDeps, postDeps, finalDeps []RegisterMutatorFunc
	NameResolver *NameResolver
	config Config
	}

	func (ctx *TestContext) PreArchMutators(f RegisterMutatorFunc) {
	ctx.preArch = append(ctx.preArch, f)
	}

	func (ctx *TestContext) HardCodedPreArchMutators(f RegisterMutatorFunc) {
	// Register mutator function as normal for testing.
	ctx.PreArchMutators(f)
	}

	func (ctx *TestContext) PreDepsMutators(f RegisterMutatorFunc) {
	ctx.preDeps = append(ctx.preDeps, f)
	}

	func (ctx *TestContext) PostDepsMutators(f RegisterMutatorFunc) {
	ctx.postDeps = append(ctx.postDeps, f)
	}

	func (ctx *TestContext) FinalDepsMutators(f RegisterMutatorFunc) {
	ctx.finalDeps = append(ctx.finalDeps, f)
	}

	func (ctx *TestContext) Register(config Config) {
	ctx.SetFs(config.fs)
	if config.mockBpList != "" {
	ctx.SetModuleListFile(config.mockBpList)
	}
	registerMutators(ctx.Context.Context, ctx.preArch, ctx.preDeps, ctx.postDeps, ctx.finalDeps)

	ctx.RegisterSingletonType("env", EnvSingleton)

	ctx.config = config
	}

	func (ctx *TestContext) ParseFileList(rootDir string, filePaths []string) (deps []string, errs []error) {
	// This function adapts the old style ParseFileList calls that are spread throughout the tests
	// to the new style that takes a config.
	return ctx.Context.ParseFileList(rootDir, filePaths, ctx.config)
	}

	func (ctx *TestContext) ParseBlueprintsFiles(rootDir string) (deps []string, errs []error) {
	// This function adapts the old style ParseBlueprintsFiles calls that are spread throughout the
	// tests to the new style that takes a config.
	return ctx.Context.ParseBlueprintsFiles(rootDir, ctx.config)
	}

	func (ctx *TestContext) RegisterModuleType(name string, factory ModuleFactory) {
	ctx.Context.RegisterModuleType(name, ModuleFactoryAdaptor(factory))
	}

	func (ctx *TestContext) RegisterSingletonType(name string, factory SingletonFactory) {
	ctx.Context.RegisterSingletonType(name, SingletonFactoryAdaptor(factory))
	}

	func (ctx *TestContext) ModuleForTests(name, variant string) TestingModule {
	var module Module
	ctx.VisitAllModules(func(m blueprint.Module) {
	if ctx.ModuleName(m) == name && ctx.ModuleSubDir(m) == variant {
	module = m.(Module)
	}
	})

	if module == nil {
	// find all the modules that do exist
	allModuleNames := []string{}
	ctx.VisitAllModules(func(m blueprint.Module) {
	allModuleNames = append(allModuleNames, m.(Module).Name()+"("+ctx.ModuleSubDir(m)+")")
	})
	sort.Strings(allModuleNames)

	panic(fmt.Errorf("failed to find module %q variant %q. All modules:\n %s",
	name, variant, strings.Join(allModuleNames, "\n ")))
	}

	return TestingModule{module}
	}

	func (ctx *TestContext) ModuleVariantsForTests(name string) []string {
	var variants []string
	ctx.VisitAllModules(func(m blueprint.Module) {
	if ctx.ModuleName(m) == name {
	variants = append(variants, ctx.ModuleSubDir(m))
	}
	})
	return variants
	}

	// SingletonForTests returns a TestingSingleton for the singleton registered with the given name.
	func (ctx *TestContext) SingletonForTests(name string) TestingSingleton {
	allSingletonNames := []string{}
	for _, s := range ctx.Singletons() {
	n := ctx.SingletonName(s)
	if n == name {
	return TestingSingleton{
	singleton: s.(*singletonAdaptor).Singleton,
	provider: s.(testBuildProvider),
	}
	}
	allSingletonNames = append(allSingletonNames, n)
	}

	panic(fmt.Errorf("failed to find singleton %q."+
	"\nall singletons: %v", name, allSingletonNames))
	}

	type testBuildProvider interface {
	BuildParamsForTests() []BuildParams
	RuleParamsForTests() map[blueprint.Rule]blueprint.RuleParams
	}

	type TestingBuildParams struct {
	BuildParams
	RuleParams blueprint.RuleParams
	}

	func newTestingBuildParams(provider testBuildProvider, bparams BuildParams) TestingBuildParams {
	return TestingBuildParams{
	BuildParams: bparams,
	RuleParams: provider.RuleParamsForTests()[bparams.Rule],
	}
	}

	func maybeBuildParamsFromRule(provider testBuildProvider, rule string) TestingBuildParams {
	for _, p := range provider.BuildParamsForTests() {
	if strings.Contains(p.Rule.String(), rule) {
	return newTestingBuildParams(provider, p)
	}
	}
	return TestingBuildParams{}
	}

	func buildParamsFromRule(provider testBuildProvider, rule string) TestingBuildParams {
	p := maybeBuildParamsFromRule(provider, rule)
	if p.Rule == nil {
	panic(fmt.Errorf("couldn't find rule %q", rule))
	}
	return p
	}

	func maybeBuildParamsFromDescription(provider testBuildProvider, desc string) TestingBuildParams {
	for _, p := range provider.BuildParamsForTests() {
	if strings.Contains(p.Description, desc) {
	return newTestingBuildParams(provider, p)
	}
	}
	return TestingBuildParams{}
	}

	func buildParamsFromDescription(provider testBuildProvider, desc string) TestingBuildParams {
	p := maybeBuildParamsFromDescription(provider, desc)
	if p.Rule == nil {
	panic(fmt.Errorf("couldn't find description %q", desc))
	}
	return p
	}

	func maybeBuildParamsFromOutput(provider testBuildProvider, file string) (TestingBuildParams, []string) {
	var searchedOutputs []string
	for _, p := range provider.BuildParamsForTests() {
	outputs := append(WritablePaths(nil), p.Outputs...)
	outputs = append(outputs, p.ImplicitOutputs...)
	if p.Output != nil {
	outputs = append(outputs, p.Output)
	}
	for _, f := range outputs {
	if f.String() == file \|\| f.Rel() == file {
	return newTestingBuildParams(provider, p), nil
	}
	searchedOutputs = append(searchedOutputs, f.Rel())
	}
	}
	return TestingBuildParams{}, searchedOutputs
	}

	func buildParamsFromOutput(provider testBuildProvider, file string) TestingBuildParams {
	p, searchedOutputs := maybeBuildParamsFromOutput(provider, file)
	if p.Rule == nil {
	panic(fmt.Errorf("couldn't find output %q.\nall outputs: %v",
	file, searchedOutputs))
	}
	return p
	}

	func allOutputs(provider testBuildProvider) []string {
	var outputFullPaths []string
	for _, p := range provider.BuildParamsForTests() {
	outputs := append(WritablePaths(nil), p.Outputs...)
	outputs = append(outputs, p.ImplicitOutputs...)
	if p.Output != nil {
	outputs = append(outputs, p.Output)
	}
	outputFullPaths = append(outputFullPaths, outputs.Strings()...)
	}
	return outputFullPaths
	}

	// TestingModule is wrapper around an android.Module that provides methods to find information about individual
	// ctx.Build parameters for verification in tests.
	type TestingModule struct {
	module Module
	}

	// Module returns the Module wrapped by the TestingModule.
	func (m TestingModule) Module() Module {
	return m.module
	}

	// MaybeRule finds a call to ctx.Build with BuildParams.Rule set to a rule with the given name. Returns an empty
	// BuildParams if no rule is found.
	func (m TestingModule) MaybeRule(rule string) TestingBuildParams {
	return maybeBuildParamsFromRule(m.module, rule)
	}

	// Rule finds a call to ctx.Build with BuildParams.Rule set to a rule with the given name. Panics if no rule is found.
	func (m TestingModule) Rule(rule string) TestingBuildParams {
	return buildParamsFromRule(m.module, rule)
	}

	// MaybeDescription finds a call to ctx.Build with BuildParams.Description set to a the given string. Returns an empty
	// BuildParams if no rule is found.
	func (m TestingModule) MaybeDescription(desc string) TestingBuildParams {
	return maybeBuildParamsFromDescription(m.module, desc)
	}

	// Description finds a call to ctx.Build with BuildParams.Description set to a the given string. Panics if no rule is
	// found.
	func (m TestingModule) Description(desc string) TestingBuildParams {
	return buildParamsFromDescription(m.module, desc)
	}

	// MaybeOutput finds a call to ctx.Build with a BuildParams.Output or BuildParams.Outputs whose String() or Rel()
	// value matches the provided string. Returns an empty BuildParams if no rule is found.
	func (m TestingModule) MaybeOutput(file string) TestingBuildParams {
	p, _ := maybeBuildParamsFromOutput(m.module, file)
	return p
	}

	// Output finds a call to ctx.Build with a BuildParams.Output or BuildParams.Outputs whose String() or Rel()
	// value matches the provided string. Panics if no rule is found.
	func (m TestingModule) Output(file string) TestingBuildParams {
	return buildParamsFromOutput(m.module, file)
	}

	// AllOutputs returns all 'BuildParams.Output's and 'BuildParams.Outputs's in their full path string forms.
	func (m TestingModule) AllOutputs() []string {
	return allOutputs(m.module)
	}

	// TestingSingleton is wrapper around an android.Singleton that provides methods to find information about individual
	// ctx.Build parameters for verification in tests.
	type TestingSingleton struct {
	singleton Singleton
	provider testBuildProvider
	}

	// Singleton returns the Singleton wrapped by the TestingSingleton.
	func (s TestingSingleton) Singleton() Singleton {
	return s.singleton
	}

	// MaybeRule finds a call to ctx.Build with BuildParams.Rule set to a rule with the given name. Returns an empty
	// BuildParams if no rule is found.
	func (s TestingSingleton) MaybeRule(rule string) TestingBuildParams {
	return maybeBuildParamsFromRule(s.provider, rule)
	}

	// Rule finds a call to ctx.Build with BuildParams.Rule set to a rule with the given name. Panics if no rule is found.
	func (s TestingSingleton) Rule(rule string) TestingBuildParams {
	return buildParamsFromRule(s.provider, rule)
	}

	// MaybeDescription finds a call to ctx.Build with BuildParams.Description set to a the given string. Returns an empty
	// BuildParams if no rule is found.
	func (s TestingSingleton) MaybeDescription(desc string) TestingBuildParams {
	return maybeBuildParamsFromDescription(s.provider, desc)
	}

	// Description finds a call to ctx.Build with BuildParams.Description set to a the given string. Panics if no rule is
	// found.
	func (s TestingSingleton) Description(desc string) TestingBuildParams {
	return buildParamsFromDescription(s.provider, desc)
	}

	// MaybeOutput finds a call to ctx.Build with a BuildParams.Output or BuildParams.Outputs whose String() or Rel()
	// value matches the provided string. Returns an empty BuildParams if no rule is found.
	func (s TestingSingleton) MaybeOutput(file string) TestingBuildParams {
	p, _ := maybeBuildParamsFromOutput(s.provider, file)
	return p
	}

	// Output finds a call to ctx.Build with a BuildParams.Output or BuildParams.Outputs whose String() or Rel()
	// value matches the provided string. Panics if no rule is found.
	func (s TestingSingleton) Output(file string) TestingBuildParams {
	return buildParamsFromOutput(s.provider, file)
	}

	// AllOutputs returns all 'BuildParams.Output's and 'BuildParams.Outputs's in their full path string forms.
	func (s TestingSingleton) AllOutputs() []string {
	return allOutputs(s.provider)
	}

	func FailIfErrored(t *testing.T, errs []error) {
	t.Helper()
	if len(errs) > 0 {
	for _, err := range errs {
	t.Error(err)
	}
	t.FailNow()
	}
	}

	func FailIfNoMatchingErrors(t *testing.T, pattern string, errs []error) {
	t.Helper()

	matcher, err := regexp.Compile(pattern)
	if err != nil {
	t.Errorf("failed to compile regular expression %q because %s", pattern, err)
	}

	found := false
	for _, err := range errs {
	if matcher.FindStringIndex(err.Error()) != nil {
	found = true
	break
	}
	}
	if !found {
	t.Errorf("missing the expected error %q (checked %d error(s))", pattern, len(errs))
	for i, err := range errs {
	t.Errorf("errs[%d] = %s", i, err)
	}
	}
	}

	func CheckErrorsAgainstExpectations(t *testing.T, errs []error, expectedErrorPatterns []string) {
	t.Helper()

	if expectedErrorPatterns == nil {
	FailIfErrored(t, errs)
	} else {
	for _, expectedError := range expectedErrorPatterns {
	FailIfNoMatchingErrors(t, expectedError, errs)
	}
	if len(errs) > len(expectedErrorPatterns) {
	t.Errorf("additional errors found, expected %d, found %d",
	len(expectedErrorPatterns), len(errs))
	for i, expectedError := range expectedErrorPatterns {
	t.Errorf("expectedErrors[%d] = %s", i, expectedError)
	}
	for i, err := range errs {
	t.Errorf("errs[%d] = %s", i, err)
	}
	}
	}

	}

	func SetInMakeForTests(config Config) {
	config.inMake = true
	}

	func AndroidMkEntriesForTest(t *testing.T, config Config, bpPath string, mod blueprint.Module) []AndroidMkEntries {
	var p AndroidMkEntriesProvider
	var ok bool
	if p, ok = mod.(AndroidMkEntriesProvider); !ok {
	t.Errorf("module does not implement AndroidMkEntriesProvider: " + mod.Name())
	}

	entriesList := p.AndroidMkEntries()
	for i, _ := range entriesList {
	entriesList[i].fillInEntries(config, bpPath, mod)
	}
	return entriesList
	}

	func AndroidMkDataForTest(t *testing.T, config Config, bpPath string, mod blueprint.Module) AndroidMkData {
	var p AndroidMkDataProvider
	var ok bool
	if p, ok = mod.(AndroidMkDataProvider); !ok {
	t.Errorf("module does not implement AndroidMkDataProvider: " + mod.Name())
	}
	data := p.AndroidMk()
	data.fillInData(config, bpPath, mod)
	return data
	}

	// Normalize the path for testing.
	//
	// If the path is relative to the build directory then return the relative path
	// to avoid tests having to deal with the dynamically generated build directory.
	//
	// Otherwise, return the supplied path as it is almost certainly a source path
	// that is relative to the root of the source tree.
	//
	// The build and source paths should be distinguishable based on their contents.
	func NormalizePathForTesting(path Path) string {
	p := path.String()
	if w, ok := path.(WritablePath); ok {
	rel, err := filepath.Rel(w.buildDir(), p)
	if err != nil {
	panic(err)
	}
	return rel
	}
	return p
	}

	func NormalizePathsForTesting(paths Paths) []string {
	var result []string
	for _, path := range paths {
	relative := NormalizePathForTesting(path)
	result = append(result, relative)
	}
	return result
	}