platform_build_soong/bazel/properties.go

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// Copyright 2020 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 bazel
import (
"fmt"
"regexp"
"sort"
)
// BazelTargetModuleProperties contain properties and metadata used for
// Blueprint to BUILD file conversion.
type BazelTargetModuleProperties struct {
// The Bazel rule class for this target.
Rule_class string `blueprint:"mutated"`
// The target label for the bzl file containing the definition of the rule class.
Bzl_load_location string `blueprint:"mutated"`
}
const BazelTargetModuleNamePrefix = "__bp2build__"
var productVariableSubstitutionPattern = regexp.MustCompile("%(d|s)")
// Label is used to represent a Bazel compatible Label. Also stores the original bp text to support
// string replacement.
type Label struct {
Bp_text string
Label string
}
// LabelList is used to represent a list of Bazel labels.
type LabelList struct {
Includes []Label
Excludes []Label
}
// Append appends the fields of other labelList to the corresponding fields of ll.
func (ll *LabelList) Append(other LabelList) {
if len(ll.Includes) > 0 || len(other.Includes) > 0 {
ll.Includes = append(ll.Includes, other.Includes...)
}
if len(ll.Excludes) > 0 || len(other.Excludes) > 0 {
ll.Excludes = append(other.Excludes, other.Excludes...)
}
}
func UniqueBazelLabels(originalLabels []Label) []Label {
uniqueLabelsSet := make(map[Label]bool)
for _, l := range originalLabels {
uniqueLabelsSet[l] = true
}
var uniqueLabels []Label
for l, _ := range uniqueLabelsSet {
uniqueLabels = append(uniqueLabels, l)
}
sort.SliceStable(uniqueLabels, func(i, j int) bool {
return uniqueLabels[i].Label < uniqueLabels[j].Label
})
return uniqueLabels
}
func UniqueBazelLabelList(originalLabelList LabelList) LabelList {
var uniqueLabelList LabelList
uniqueLabelList.Includes = UniqueBazelLabels(originalLabelList.Includes)
uniqueLabelList.Excludes = UniqueBazelLabels(originalLabelList.Excludes)
return uniqueLabelList
}
const (
ARCH_X86 = "x86"
ARCH_X86_64 = "x86_64"
ARCH_ARM = "arm"
ARCH_ARM64 = "arm64"
)
var (
// This is the list of architectures with a Bazel config_setting and
// constraint value equivalent. is actually android.ArchTypeList, but the
// android package depends on the bazel package, so a cyclic dependency
// prevents using that here.
selectableArchs = []string{ARCH_X86, ARCH_X86_64, ARCH_ARM, ARCH_ARM64}
)
// Arch-specific label_list typed Bazel attribute values. This should correspond
// to the types of architectures supported for compilation in arch.go.
type labelListArchValues struct {
X86 LabelList
X86_64 LabelList
Arm LabelList
Arm64 LabelList
// TODO(b/181299724): this is currently missing the "common" arch, which
// doesn't have an equivalent platform() definition yet.
}
// LabelListAttribute is used to represent a list of Bazel labels as an
// attribute.
type LabelListAttribute struct {
// The non-arch specific attribute label list Value. Required.
Value LabelList
// The arch-specific attribute label list values. Optional. If used, these
// are generated in a select statement and appended to the non-arch specific
// label list Value.
ArchValues labelListArchValues
}
// MakeLabelListAttribute initializes a LabelListAttribute with the non-arch specific value.
func MakeLabelListAttribute(value LabelList) LabelListAttribute {
return LabelListAttribute{Value: UniqueBazelLabelList(value)}
}
// HasArchSpecificValues returns true if the attribute contains
// architecture-specific label_list values.
func (attrs *LabelListAttribute) HasArchSpecificValues() bool {
for _, arch := range selectableArchs {
if len(attrs.GetValueForArch(arch).Includes) > 0 || len(attrs.GetValueForArch(arch).Excludes) > 0 {
return true
}
}
return false
}
// GetValueForArch returns the label_list attribute value for an architecture.
func (attrs *LabelListAttribute) GetValueForArch(arch string) LabelList {
switch arch {
case ARCH_X86:
return attrs.ArchValues.X86
case ARCH_X86_64:
return attrs.ArchValues.X86_64
case ARCH_ARM:
return attrs.ArchValues.Arm
case ARCH_ARM64:
return attrs.ArchValues.Arm64
default:
panic(fmt.Errorf("Unknown arch: %s", arch))
}
}
// SetValueForArch sets the label_list attribute value for an architecture.
func (attrs *LabelListAttribute) SetValueForArch(arch string, value LabelList) {
switch arch {
case "x86":
attrs.ArchValues.X86 = value
case "x86_64":
attrs.ArchValues.X86_64 = value
case "arm":
attrs.ArchValues.Arm = value
case "arm64":
attrs.ArchValues.Arm64 = value
default:
panic(fmt.Errorf("Unknown arch: %s", arch))
}
}
// StringListAttribute corresponds to the string_list Bazel attribute type with
// support for additional metadata, like configurations.
type StringListAttribute struct {
// The base value of the string list attribute.
Value []string
// Optional additive set of list values to the base value.
ArchValues stringListArchValues
}
// Arch-specific string_list typed Bazel attribute values. This should correspond
// to the types of architectures supported for compilation in arch.go.
type stringListArchValues struct {
X86 []string
X86_64 []string
Arm []string
Arm64 []string
// TODO(b/181299724): this is currently missing the "common" arch, which
// doesn't have an equivalent platform() definition yet.
}
// HasArchSpecificValues returns true if the attribute contains
// architecture-specific string_list values.
func (attrs *StringListAttribute) HasArchSpecificValues() bool {
for _, arch := range selectableArchs {
if len(attrs.GetValueForArch(arch)) > 0 {
return true
}
}
return false
}
// GetValueForArch returns the string_list attribute value for an architecture.
func (attrs *StringListAttribute) GetValueForArch(arch string) []string {
switch arch {
case ARCH_X86:
return attrs.ArchValues.X86
case ARCH_X86_64:
return attrs.ArchValues.X86_64
case ARCH_ARM:
return attrs.ArchValues.Arm
case ARCH_ARM64:
return attrs.ArchValues.Arm64
default:
panic(fmt.Errorf("Unknown arch: %s", arch))
}
}
// SetValueForArch sets the string_list attribute value for an architecture.
func (attrs *StringListAttribute) SetValueForArch(arch string, value []string) {
switch arch {
case ARCH_X86:
attrs.ArchValues.X86 = value
case ARCH_X86_64:
attrs.ArchValues.X86_64 = value
case ARCH_ARM:
attrs.ArchValues.Arm = value
case ARCH_ARM64:
attrs.ArchValues.Arm64 = value
default:
panic(fmt.Errorf("Unknown arch: %s", arch))
}
}
// TryVariableSubstitution, replace string substitution formatting within each string in slice with
// Starlark string.format compatible tag for productVariable.
func TryVariableSubstitutions(slice []string, productVariable string) ([]string, bool) {
ret := make([]string, 0, len(slice))
changesMade := false
for _, s := range slice {
newS, changed := TryVariableSubstitution(s, productVariable)
ret = append(ret, newS)
changesMade = changesMade || changed
}
return ret, changesMade
}
// TryVariableSubstitution, replace string substitution formatting within s with Starlark
// string.format compatible tag for productVariable.
func TryVariableSubstitution(s string, productVariable string) (string, bool) {
sub := productVariableSubstitutionPattern.ReplaceAllString(s, "{"+productVariable+"}")
return sub, s != sub
}