platform_build_soong/android/mutator.go
Paul Duffin c05b034e95 Separate the collation of mutators from registration
This separates the collation of mutators from the registration of them
to allow the test infrastructure to sort the mutator order to match
that used at runtime.

Bug: 181953909
Test: m nothing
Change-Id: I01a073289d44417f327b0815c09eb1c033d464f2
2021-03-07 12:33:07 +00:00

726 lines
27 KiB
Go

// Copyright 2015 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 (
"android/soong/bazel"
"fmt"
"reflect"
"strings"
"github.com/google/blueprint"
"github.com/google/blueprint/proptools"
)
// Phases:
// run Pre-arch mutators
// run archMutator
// run Pre-deps mutators
// run depsMutator
// run PostDeps mutators
// run FinalDeps mutators (CreateVariations disallowed in this phase)
// continue on to GenerateAndroidBuildActions
// RegisterMutatorsForBazelConversion is a alternate registration pipeline for bp2build. Exported for testing.
func RegisterMutatorsForBazelConversion(ctx *Context, preArchMutators, depsMutators, bp2buildMutators []RegisterMutatorFunc) {
mctx := &registerMutatorsContext{
bazelConversionMode: true,
}
bp2buildPreArchMutators = append([]RegisterMutatorFunc{
RegisterNamespaceMutator,
RegisterDefaultsPreArchMutators,
// TODO(b/165114590): this is required to resolve deps that are only prebuilts, but we should
// evaluate the impact on conversion.
RegisterPrebuiltsPreArchMutators,
},
preArchMutators...)
for _, f := range bp2buildPreArchMutators {
f(mctx)
}
bp2buildDepsMutators = append([]RegisterMutatorFunc{
registerDepsMutatorBp2Build,
registerPathDepsMutator,
}, depsMutators...)
for _, f := range bp2buildDepsMutators {
f(mctx)
}
// Register bp2build mutators
for _, f := range bp2buildMutators {
f(mctx)
}
mctx.mutators.registerAll(ctx)
}
// collateGloballyRegisteredMutators constructs the list of mutators that have been registered
// with the InitRegistrationContext and will be used at runtime.
func collateGloballyRegisteredMutators() sortableComponents {
return collateRegisteredMutators(preArch, preDeps, postDeps, finalDeps)
}
// collateRegisteredMutators constructs a single list of mutators from the separate lists.
func collateRegisteredMutators(preArch, preDeps, postDeps, finalDeps []RegisterMutatorFunc) sortableComponents {
mctx := &registerMutatorsContext{}
register := func(funcs []RegisterMutatorFunc) {
for _, f := range funcs {
f(mctx)
}
}
register(preArch)
register(preDeps)
register([]RegisterMutatorFunc{registerDepsMutator})
register(postDeps)
mctx.finalPhase = true
register(finalDeps)
return mctx.mutators
}
type registerMutatorsContext struct {
mutators sortableComponents
finalPhase bool
bazelConversionMode bool
}
type RegisterMutatorsContext interface {
TopDown(name string, m TopDownMutator) MutatorHandle
BottomUp(name string, m BottomUpMutator) MutatorHandle
BottomUpBlueprint(name string, m blueprint.BottomUpMutator) MutatorHandle
}
type RegisterMutatorFunc func(RegisterMutatorsContext)
var preArch = []RegisterMutatorFunc{
RegisterNamespaceMutator,
// Check the visibility rules are valid.
//
// This must run after the package renamer mutators so that any issues found during
// validation of the package's default_visibility property are reported using the
// correct package name and not the synthetic name.
//
// This must also be run before defaults mutators as the rules for validation are
// different before checking the rules than they are afterwards. e.g.
// visibility: ["//visibility:private", "//visibility:public"]
// would be invalid if specified in a module definition but is valid if it results
// from something like this:
//
// defaults {
// name: "defaults",
// // Be inaccessible outside a package by default.
// visibility: ["//visibility:private"]
// }
//
// defaultable_module {
// name: "defaultable_module",
// defaults: ["defaults"],
// // Override the default.
// visibility: ["//visibility:public"]
// }
//
RegisterVisibilityRuleChecker,
// Record the default_applicable_licenses for each package.
//
// This must run before the defaults so that defaults modules can pick up the package default.
RegisterLicensesPackageMapper,
// Apply properties from defaults modules to the referencing modules.
//
// Any mutators that are added before this will not see any modules created by
// a DefaultableHook.
RegisterDefaultsPreArchMutators,
// Add dependencies on any components so that any component references can be
// resolved within the deps mutator.
//
// Must be run after defaults so it can be used to create dependencies on the
// component modules that are creating in a DefaultableHook.
//
// Must be run before RegisterPrebuiltsPreArchMutators, i.e. before prebuilts are
// renamed. That is so that if a module creates components using a prebuilt module
// type that any dependencies (which must use prebuilt_ prefixes) are resolved to
// the prebuilt module and not the source module.
RegisterComponentsMutator,
// Create an association between prebuilt modules and their corresponding source
// modules (if any).
//
// Must be run after defaults mutators to ensure that any modules created by
// a DefaultableHook can be either a prebuilt or a source module with a matching
// prebuilt.
RegisterPrebuiltsPreArchMutators,
// Gather the licenses properties for all modules for use during expansion and enforcement.
//
// This must come after the defaults mutators to ensure that any licenses supplied
// in a defaults module has been successfully applied before the rules are gathered.
RegisterLicensesPropertyGatherer,
// Gather the visibility rules for all modules for us during visibility enforcement.
//
// This must come after the defaults mutators to ensure that any visibility supplied
// in a defaults module has been successfully applied before the rules are gathered.
RegisterVisibilityRuleGatherer,
}
func registerArchMutator(ctx RegisterMutatorsContext) {
ctx.BottomUpBlueprint("os", osMutator).Parallel()
ctx.BottomUp("image", imageMutator).Parallel()
ctx.BottomUpBlueprint("arch", archMutator).Parallel()
}
var preDeps = []RegisterMutatorFunc{
registerArchMutator,
}
var postDeps = []RegisterMutatorFunc{
registerPathDepsMutator,
RegisterPrebuiltsPostDepsMutators,
RegisterVisibilityRuleEnforcer,
RegisterLicensesDependencyChecker,
RegisterNeverallowMutator,
RegisterOverridePostDepsMutators,
}
var finalDeps = []RegisterMutatorFunc{}
func PreArchMutators(f RegisterMutatorFunc) {
preArch = append(preArch, f)
}
func PreDepsMutators(f RegisterMutatorFunc) {
preDeps = append(preDeps, f)
}
func PostDepsMutators(f RegisterMutatorFunc) {
postDeps = append(postDeps, f)
}
func FinalDepsMutators(f RegisterMutatorFunc) {
finalDeps = append(finalDeps, f)
}
var bp2buildPreArchMutators = []RegisterMutatorFunc{}
var bp2buildDepsMutators = []RegisterMutatorFunc{}
var bp2buildMutators = []RegisterMutatorFunc{}
// RegisterBp2BuildMutator registers specially crafted mutators for
// converting Blueprint/Android modules into special modules that can
// be code-generated into Bazel BUILD targets.
//
// TODO(b/178068862): bring this into TestContext.
func RegisterBp2BuildMutator(moduleType string, m func(TopDownMutatorContext)) {
f := func(ctx RegisterMutatorsContext) {
ctx.TopDown(moduleType, m)
}
bp2buildMutators = append(bp2buildMutators, f)
}
// PreArchBp2BuildMutators adds mutators to be register for converting Android Blueprint modules
// into Bazel BUILD targets that should run prior to deps and conversion.
func PreArchBp2BuildMutators(f RegisterMutatorFunc) {
bp2buildPreArchMutators = append(bp2buildPreArchMutators, f)
}
// DepsBp2BuildMutators adds mutators to be register for converting Android Blueprint modules into
// Bazel BUILD targets that should run prior to conversion to resolve dependencies.
func DepsBp2BuildMutators(f RegisterMutatorFunc) {
bp2buildDepsMutators = append(bp2buildDepsMutators, f)
}
type BaseMutatorContext interface {
BaseModuleContext
// MutatorName returns the name that this mutator was registered with.
MutatorName() string
// Rename all variants of a module. The new name is not visible to calls to ModuleName,
// AddDependency or OtherModuleName until after this mutator pass is complete.
Rename(name string)
}
type TopDownMutator func(TopDownMutatorContext)
type TopDownMutatorContext interface {
BaseMutatorContext
// CreateModule creates a new module by calling the factory method for the specified moduleType, and applies
// the specified property structs to it as if the properties were set in a blueprint file.
CreateModule(ModuleFactory, ...interface{}) Module
// CreateBazelTargetModule creates a BazelTargetModule by calling the
// factory method, just like in CreateModule, but also requires
// BazelTargetModuleProperties containing additional metadata for the
// bp2build codegenerator.
CreateBazelTargetModule(ModuleFactory, string, bazel.BazelTargetModuleProperties, interface{}) BazelTargetModule
}
type topDownMutatorContext struct {
bp blueprint.TopDownMutatorContext
baseModuleContext
}
type BottomUpMutator func(BottomUpMutatorContext)
type BottomUpMutatorContext interface {
BaseMutatorContext
// AddDependency adds a dependency to the given module. It returns a slice of modules for each
// dependency (some entries may be nil).
//
// If the mutator is parallel (see MutatorHandle.Parallel), this method will pause until the
// new dependencies have had the current mutator called on them. If the mutator is not
// parallel this method does not affect the ordering of the current mutator pass, but will
// be ordered correctly for all future mutator passes.
AddDependency(module blueprint.Module, tag blueprint.DependencyTag, name ...string) []blueprint.Module
// AddReverseDependency adds a dependency from the destination to the given module.
// Does not affect the ordering of the current mutator pass, but will be ordered
// correctly for all future mutator passes. All reverse dependencies for a destination module are
// collected until the end of the mutator pass, sorted by name, and then appended to the destination
// module's dependency list.
AddReverseDependency(module blueprint.Module, tag blueprint.DependencyTag, name string)
// CreateVariations splits a module into multiple variants, one for each name in the variationNames
// parameter. It returns a list of new modules in the same order as the variationNames
// list.
//
// If any of the dependencies of the module being operated on were already split
// by calling CreateVariations with the same name, the dependency will automatically
// be updated to point the matching variant.
//
// If a module is split, and then a module depending on the first module is not split
// when the Mutator is later called on it, the dependency of the depending module will
// automatically be updated to point to the first variant.
CreateVariations(...string) []Module
// CreateLocationVariations splits a module into multiple variants, one for each name in the variantNames
// parameter. It returns a list of new modules in the same order as the variantNames
// list.
//
// Local variations do not affect automatic dependency resolution - dependencies added
// to the split module via deps or DynamicDependerModule must exactly match a variant
// that contains all the non-local variations.
CreateLocalVariations(...string) []Module
// SetDependencyVariation sets all dangling dependencies on the current module to point to the variation
// with given name. This function ignores the default variation set by SetDefaultDependencyVariation.
SetDependencyVariation(string)
// SetDefaultDependencyVariation sets the default variation when a dangling reference is detected
// during the subsequent calls on Create*Variations* functions. To reset, set it to nil.
SetDefaultDependencyVariation(*string)
// AddVariationDependencies adds deps as dependencies of the current module, but uses the variations
// argument to select which variant of the dependency to use. It returns a slice of modules for
// each dependency (some entries may be nil). A variant of the dependency must exist that matches
// the all of the non-local variations of the current module, plus the variations argument.
//
// If the mutator is parallel (see MutatorHandle.Parallel), this method will pause until the
// new dependencies have had the current mutator called on them. If the mutator is not
// parallel this method does not affect the ordering of the current mutator pass, but will
// be ordered correctly for all future mutator passes.
AddVariationDependencies([]blueprint.Variation, blueprint.DependencyTag, ...string) []blueprint.Module
// AddFarVariationDependencies adds deps as dependencies of the current module, but uses the
// variations argument to select which variant of the dependency to use. It returns a slice of
// modules for each dependency (some entries may be nil). A variant of the dependency must
// exist that matches the variations argument, but may also have other variations.
// For any unspecified variation the first variant will be used.
//
// Unlike AddVariationDependencies, the variations of the current module are ignored - the
// dependency only needs to match the supplied variations.
//
// If the mutator is parallel (see MutatorHandle.Parallel), this method will pause until the
// new dependencies have had the current mutator called on them. If the mutator is not
// parallel this method does not affect the ordering of the current mutator pass, but will
// be ordered correctly for all future mutator passes.
AddFarVariationDependencies([]blueprint.Variation, blueprint.DependencyTag, ...string) []blueprint.Module
// AddInterVariantDependency adds a dependency between two variants of the same module. Variants are always
// ordered in the same orderas they were listed in CreateVariations, and AddInterVariantDependency does not change
// that ordering, but it associates a DependencyTag with the dependency and makes it visible to VisitDirectDeps,
// WalkDeps, etc.
AddInterVariantDependency(tag blueprint.DependencyTag, from, to blueprint.Module)
// ReplaceDependencies replaces all dependencies on the identical variant of the module with the
// specified name with the current variant of this module. Replacements don't take effect until
// after the mutator pass is finished.
ReplaceDependencies(string)
// ReplaceDependencies replaces all dependencies on the identical variant of the module with the
// specified name with the current variant of this module as long as the supplied predicate returns
// true.
//
// Replacements don't take effect until after the mutator pass is finished.
ReplaceDependenciesIf(string, blueprint.ReplaceDependencyPredicate)
// AliasVariation takes a variationName that was passed to CreateVariations for this module,
// and creates an alias from the current variant (before the mutator has run) to the new
// variant. The alias will be valid until the next time a mutator calls CreateVariations or
// CreateLocalVariations on this module without also calling AliasVariation. The alias can
// be used to add dependencies on the newly created variant using the variant map from
// before CreateVariations was run.
AliasVariation(variationName string)
// CreateAliasVariation takes a toVariationName that was passed to CreateVariations for this
// module, and creates an alias from a new fromVariationName variant the toVariationName
// variant. The alias will be valid until the next time a mutator calls CreateVariations or
// CreateLocalVariations on this module without also calling AliasVariation. The alias can
// be used to add dependencies on the toVariationName variant using the fromVariationName
// variant.
CreateAliasVariation(fromVariationName, toVariationName string)
// SetVariationProvider sets the value for a provider for the given newly created variant of
// the current module, i.e. one of the Modules returned by CreateVariations.. It panics if
// not called during the appropriate mutator or GenerateBuildActions pass for the provider,
// if the value is not of the appropriate type, or if the module is not a newly created
// variant of the current module. The value should not be modified after being passed to
// SetVariationProvider.
SetVariationProvider(module blueprint.Module, provider blueprint.ProviderKey, value interface{})
// BazelConversionMode returns whether this mutator is being run as part of Bazel Conversion.
BazelConversionMode() bool
}
type bottomUpMutatorContext struct {
bp blueprint.BottomUpMutatorContext
baseModuleContext
finalPhase bool
bazelConversionMode bool
}
func bottomUpMutatorContextFactory(ctx blueprint.BottomUpMutatorContext, a Module,
finalPhase, bazelConversionMode bool) BottomUpMutatorContext {
return &bottomUpMutatorContext{
bp: ctx,
baseModuleContext: a.base().baseModuleContextFactory(ctx),
finalPhase: finalPhase,
bazelConversionMode: bazelConversionMode,
}
}
func (x *registerMutatorsContext) BottomUp(name string, m BottomUpMutator) MutatorHandle {
finalPhase := x.finalPhase
bazelConversionMode := x.bazelConversionMode
f := func(ctx blueprint.BottomUpMutatorContext) {
if a, ok := ctx.Module().(Module); ok {
m(bottomUpMutatorContextFactory(ctx, a, finalPhase, bazelConversionMode))
}
}
mutator := &mutator{name: x.mutatorName(name), bottomUpMutator: f}
x.mutators = append(x.mutators, mutator)
return mutator
}
func (x *registerMutatorsContext) BottomUpBlueprint(name string, m blueprint.BottomUpMutator) MutatorHandle {
mutator := &mutator{name: name, bottomUpMutator: m}
x.mutators = append(x.mutators, mutator)
return mutator
}
func (x *registerMutatorsContext) mutatorName(name string) string {
if x.bazelConversionMode {
return name + "_bp2build"
}
return name
}
func (x *registerMutatorsContext) TopDown(name string, m TopDownMutator) MutatorHandle {
f := func(ctx blueprint.TopDownMutatorContext) {
if a, ok := ctx.Module().(Module); ok {
actx := &topDownMutatorContext{
bp: ctx,
baseModuleContext: a.base().baseModuleContextFactory(ctx),
}
m(actx)
}
}
mutator := &mutator{name: x.mutatorName(name), topDownMutator: f}
x.mutators = append(x.mutators, mutator)
return mutator
}
func (mutator *mutator) componentName() string {
return mutator.name
}
func (mutator *mutator) register(ctx *Context) {
blueprintCtx := ctx.Context
var handle blueprint.MutatorHandle
if mutator.bottomUpMutator != nil {
handle = blueprintCtx.RegisterBottomUpMutator(mutator.name, mutator.bottomUpMutator)
} else if mutator.topDownMutator != nil {
handle = blueprintCtx.RegisterTopDownMutator(mutator.name, mutator.topDownMutator)
}
if mutator.parallel {
handle.Parallel()
}
}
type MutatorHandle interface {
Parallel() MutatorHandle
}
func (mutator *mutator) Parallel() MutatorHandle {
mutator.parallel = true
return mutator
}
func RegisterComponentsMutator(ctx RegisterMutatorsContext) {
ctx.BottomUp("component-deps", componentDepsMutator).Parallel()
}
// A special mutator that runs just prior to the deps mutator to allow the dependencies
// on component modules to be added so that they can depend directly on a prebuilt
// module.
func componentDepsMutator(ctx BottomUpMutatorContext) {
if m := ctx.Module(); m.Enabled() {
m.ComponentDepsMutator(ctx)
}
}
func depsMutator(ctx BottomUpMutatorContext) {
if m := ctx.Module(); m.Enabled() {
m.DepsMutator(ctx)
}
}
func registerDepsMutator(ctx RegisterMutatorsContext) {
ctx.BottomUp("deps", depsMutator).Parallel()
}
func registerDepsMutatorBp2Build(ctx RegisterMutatorsContext) {
// TODO(b/179313531): Consider a separate mutator that only runs depsMutator for modules that are
// being converted to build targets.
ctx.BottomUp("deps", depsMutator).Parallel()
}
func (t *topDownMutatorContext) CreateBazelTargetModule(
factory ModuleFactory,
name string,
bazelProps bazel.BazelTargetModuleProperties,
attrs interface{}) BazelTargetModule {
if strings.HasPrefix(name, bazel.BazelTargetModuleNamePrefix) {
panic(fmt.Errorf(
"The %s name prefix is added automatically, do not set it manually: %s",
bazel.BazelTargetModuleNamePrefix,
name))
}
name = bazel.BazelTargetModuleNamePrefix + name
nameProp := struct {
Name *string
}{
Name: &name,
}
b := t.CreateModule(factory, &nameProp, attrs).(BazelTargetModule)
b.SetBazelTargetModuleProperties(bazelProps)
return b
}
func (t *topDownMutatorContext) AppendProperties(props ...interface{}) {
for _, p := range props {
err := proptools.AppendMatchingProperties(t.Module().base().customizableProperties,
p, nil)
if err != nil {
if propertyErr, ok := err.(*proptools.ExtendPropertyError); ok {
t.PropertyErrorf(propertyErr.Property, "%s", propertyErr.Err.Error())
} else {
panic(err)
}
}
}
}
func (t *topDownMutatorContext) PrependProperties(props ...interface{}) {
for _, p := range props {
err := proptools.PrependMatchingProperties(t.Module().base().customizableProperties,
p, nil)
if err != nil {
if propertyErr, ok := err.(*proptools.ExtendPropertyError); ok {
t.PropertyErrorf(propertyErr.Property, "%s", propertyErr.Err.Error())
} else {
panic(err)
}
}
}
}
// android.topDownMutatorContext either has to embed blueprint.TopDownMutatorContext, in which case every method that
// has an overridden version in android.BaseModuleContext has to be manually forwarded to BaseModuleContext to avoid
// ambiguous method errors, or it has to store a blueprint.TopDownMutatorContext non-embedded, in which case every
// non-overridden method has to be forwarded. There are fewer non-overridden methods, so use the latter. The following
// methods forward to the identical blueprint versions for topDownMutatorContext and bottomUpMutatorContext.
func (t *topDownMutatorContext) MutatorName() string {
return t.bp.MutatorName()
}
func (t *topDownMutatorContext) Rename(name string) {
t.bp.Rename(name)
t.Module().base().commonProperties.DebugName = name
}
func (t *topDownMutatorContext) CreateModule(factory ModuleFactory, props ...interface{}) Module {
inherited := []interface{}{&t.Module().base().commonProperties}
module := t.bp.CreateModule(ModuleFactoryAdaptor(factory), append(inherited, props...)...).(Module)
if t.Module().base().variableProperties != nil && module.base().variableProperties != nil {
src := t.Module().base().variableProperties
dst := []interface{}{
module.base().variableProperties,
// Put an empty copy of the src properties into dst so that properties in src that are not in dst
// don't cause a "failed to find property to extend" error.
proptools.CloneEmptyProperties(reflect.ValueOf(src)).Interface(),
}
err := proptools.AppendMatchingProperties(dst, src, nil)
if err != nil {
panic(err)
}
}
return module
}
func (b *bottomUpMutatorContext) MutatorName() string {
return b.bp.MutatorName()
}
func (b *bottomUpMutatorContext) Rename(name string) {
b.bp.Rename(name)
b.Module().base().commonProperties.DebugName = name
}
func (b *bottomUpMutatorContext) AddDependency(module blueprint.Module, tag blueprint.DependencyTag, name ...string) []blueprint.Module {
return b.bp.AddDependency(module, tag, name...)
}
func (b *bottomUpMutatorContext) AddReverseDependency(module blueprint.Module, tag blueprint.DependencyTag, name string) {
b.bp.AddReverseDependency(module, tag, name)
}
func (b *bottomUpMutatorContext) CreateVariations(variations ...string) []Module {
if b.finalPhase {
panic("CreateVariations not allowed in FinalDepsMutators")
}
modules := b.bp.CreateVariations(variations...)
aModules := make([]Module, len(modules))
for i := range variations {
aModules[i] = modules[i].(Module)
base := aModules[i].base()
base.commonProperties.DebugMutators = append(base.commonProperties.DebugMutators, b.MutatorName())
base.commonProperties.DebugVariations = append(base.commonProperties.DebugVariations, variations[i])
}
return aModules
}
func (b *bottomUpMutatorContext) CreateLocalVariations(variations ...string) []Module {
if b.finalPhase {
panic("CreateLocalVariations not allowed in FinalDepsMutators")
}
modules := b.bp.CreateLocalVariations(variations...)
aModules := make([]Module, len(modules))
for i := range variations {
aModules[i] = modules[i].(Module)
base := aModules[i].base()
base.commonProperties.DebugMutators = append(base.commonProperties.DebugMutators, b.MutatorName())
base.commonProperties.DebugVariations = append(base.commonProperties.DebugVariations, variations[i])
}
return aModules
}
func (b *bottomUpMutatorContext) SetDependencyVariation(variation string) {
b.bp.SetDependencyVariation(variation)
}
func (b *bottomUpMutatorContext) SetDefaultDependencyVariation(variation *string) {
b.bp.SetDefaultDependencyVariation(variation)
}
func (b *bottomUpMutatorContext) AddVariationDependencies(variations []blueprint.Variation, tag blueprint.DependencyTag,
names ...string) []blueprint.Module {
if b.bazelConversionMode {
_, noSelfDeps := RemoveFromList(b.ModuleName(), names)
if len(noSelfDeps) == 0 {
return []blueprint.Module(nil)
}
// In Bazel conversion mode, mutators should not have created any variants. So, when adding a
// dependency, the variations would not exist and the dependency could not be added, by
// specifying no variations, we will allow adding the dependency to succeed.
return b.bp.AddFarVariationDependencies(nil, tag, noSelfDeps...)
}
return b.bp.AddVariationDependencies(variations, tag, names...)
}
func (b *bottomUpMutatorContext) AddFarVariationDependencies(variations []blueprint.Variation,
tag blueprint.DependencyTag, names ...string) []blueprint.Module {
if b.bazelConversionMode {
// In Bazel conversion mode, mutators should not have created any variants. So, when adding a
// dependency, the variations would not exist and the dependency could not be added, by
// specifying no variations, we will allow adding the dependency to succeed.
return b.bp.AddFarVariationDependencies(nil, tag, names...)
}
return b.bp.AddFarVariationDependencies(variations, tag, names...)
}
func (b *bottomUpMutatorContext) AddInterVariantDependency(tag blueprint.DependencyTag, from, to blueprint.Module) {
b.bp.AddInterVariantDependency(tag, from, to)
}
func (b *bottomUpMutatorContext) ReplaceDependencies(name string) {
b.bp.ReplaceDependencies(name)
}
func (b *bottomUpMutatorContext) ReplaceDependenciesIf(name string, predicate blueprint.ReplaceDependencyPredicate) {
b.bp.ReplaceDependenciesIf(name, predicate)
}
func (b *bottomUpMutatorContext) AliasVariation(variationName string) {
b.bp.AliasVariation(variationName)
}
func (b *bottomUpMutatorContext) CreateAliasVariation(fromVariationName, toVariationName string) {
b.bp.CreateAliasVariation(fromVariationName, toVariationName)
}
func (b *bottomUpMutatorContext) SetVariationProvider(module blueprint.Module, provider blueprint.ProviderKey, value interface{}) {
b.bp.SetVariationProvider(module, provider, value)
}
func (b *bottomUpMutatorContext) BazelConversionMode() bool {
return b.bazelConversionMode
}