/*
* Copyright (C) 2016 The Android Open Source Project
*
* 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 androidx.room.processor
import androidx.room.Delete
import androidx.room.Insert
import androidx.room.Query
import androidx.room.RawQuery
import androidx.room.SkipQueryVerification
import androidx.room.Transaction
import androidx.room.Update
import androidx.room.ext.asDeclaredType
import androidx.room.ext.findKotlinDefaultImpl
import androidx.room.ext.getAllMethods
import androidx.room.ext.getConstructors
import androidx.room.ext.hasAnnotation
import androidx.room.ext.isAbstract
import androidx.room.ext.isInterface
import androidx.room.ext.type
import androidx.room.ext.typeName
import androidx.room.verifier.DatabaseVerifier
import androidx.room.vo.Dao
import androidx.room.vo.KotlinDefaultMethodDelegate
import isAssignableFrom
import javax.lang.model.element.ExecutableElement
import javax.lang.model.element.TypeElement
import javax.lang.model.type.DeclaredType
class DaoProcessor(
baseContext: Context,
val element: TypeElement,
val dbType: DeclaredType,
val dbVerifier: DatabaseVerifier?
) {
val context = baseContext.fork(element)
companion object {
val PROCESSED_ANNOTATIONS = listOf(Insert::class, Delete::class, Query::class,
Update::class, RawQuery::class)
}
fun process(): Dao {
context.checker.hasAnnotation(element, androidx.room.Dao::class,
ProcessorErrors.DAO_MUST_BE_ANNOTATED_WITH_DAO)
context.checker.check(element.isAbstract() || element.isInterface(),
element, ProcessorErrors.DAO_MUST_BE_AN_ABSTRACT_CLASS_OR_AN_INTERFACE)
val declaredType = element.asDeclaredType()
val allMethods = element.getAllMethods(context.processingEnv)
val methods = allMethods
.filter {
it.isAbstract() &&
it.findKotlinDefaultImpl(context.processingEnv.typeUtils) == null
}.groupBy { method ->
context.checker.check(
PROCESSED_ANNOTATIONS.count { method.hasAnnotation(it) } == 1, method,
ProcessorErrors.INVALID_ANNOTATION_COUNT_IN_DAO_METHOD
)
if (method.hasAnnotation(Query::class)) {
Query::class
} else if (method.hasAnnotation(Insert::class)) {
Insert::class
} else if (method.hasAnnotation(Delete::class)) {
Delete::class
} else if (method.hasAnnotation(Update::class)) {
Update::class
} else if (method.hasAnnotation(RawQuery::class)) {
RawQuery::class
} else {
Any::class
}
}
val processorVerifier = if (element.hasAnnotation(SkipQueryVerification::class) ||
element.hasAnnotation(RawQuery::class)) {
null
} else {
dbVerifier
}
val queryMethods = methods[Query::class]?.map {
QueryMethodProcessor(
baseContext = context,
containing = declaredType,
executableElement = it,
dbVerifier = processorVerifier).process()
} ?: emptyList()
val rawQueryMethods = methods[RawQuery::class]?.map {
RawQueryMethodProcessor(
baseContext = context,
containing = declaredType,
executableElement = it
).process()
} ?: emptyList()
val insertionMethods = methods[Insert::class]?.map {
InsertionMethodProcessor(
baseContext = context,
containing = declaredType,
executableElement = it).process()
} ?: emptyList()
val deletionMethods = methods[Delete::class]?.map {
DeletionMethodProcessor(
baseContext = context,
containing = declaredType,
executableElement = it).process()
} ?: emptyList()
val updateMethods = methods[Update::class]?.map {
UpdateMethodProcessor(
baseContext = context,
containing = declaredType,
executableElement = it).process()
} ?: emptyList()
val transactionMethods = allMethods.filter { member ->
member.hasAnnotation(Transaction::class) &&
PROCESSED_ANNOTATIONS.none { member.hasAnnotation(it) }
}.map {
TransactionMethodProcessor(
baseContext = context,
containing = declaredType,
executableElement = it).process()
}
val kotlinDefaultMethodDelegates = if (element.isInterface()) {
val allProcessedMethods =
methods.values.flatten() + transactionMethods.map { it.element }
allMethods.filterNot {
allProcessedMethods.contains(it)
}.mapNotNull { method ->
method.findKotlinDefaultImpl(context.processingEnv.typeUtils)?.let { delegate ->
KotlinDefaultMethodDelegate(
element = method,
delegateElement = delegate
)
}
}
} else {
emptyList()
}
val constructors = element.getConstructors()
val typeUtils = context.processingEnv.typeUtils
val goodConstructor = constructors.firstOrNull {
it.parameters.size == 1 &&
it.parameters[0].type.isAssignableFrom(typeUtils, dbType)
}
val constructorParamType = if (goodConstructor != null) {
goodConstructor.parameters[0].type.typeName()
} else {
validateEmptyConstructor(constructors)
null
}
context.checker.check(methods[Any::class] == null, element,
ProcessorErrors.ABSTRACT_METHOD_IN_DAO_MISSING_ANY_ANNOTATION)
val type = declaredType.typeName()
context.checker.notUnbound(type, element,
ProcessorErrors.CANNOT_USE_UNBOUND_GENERICS_IN_DAO_CLASSES)
return Dao(element = element,
type = declaredType,
queryMethods = queryMethods,
rawQueryMethods = rawQueryMethods,
insertionMethods = insertionMethods,
deletionMethods = deletionMethods,
updateMethods = updateMethods,
transactionMethods = transactionMethods,
kotlinDefaultMethodDelegates = kotlinDefaultMethodDelegates,
constructorParamType = constructorParamType)
}
private fun validateEmptyConstructor(constructors: List<ExecutableElement>) {
if (constructors.isNotEmpty() && constructors.all { it.parameters.isNotEmpty() }) {
context.logger.e(element, ProcessorErrors.daoMustHaveMatchingConstructor(
element.toString(), dbType.toString()))
}
}
}