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scalapb.textformat.AstUtils.scala Maven / Gradle / Ivy
package scalapb.textformat
import com.google.protobuf.descriptor.FieldDescriptorProto
import scalapb.descriptors._
import scalapb.descriptors.{FieldDescriptor, PValue}
import scalapb.{GeneratedMessage, GeneratedMessageCompanion}
import scala.util.Try
import scala.annotation.nowarn
@nowarn("cat=deprecation")
private[scalapb] object AstUtils {
case class AstError(index: Int, error: String)
private def flatten[T](s: Seq[Either[AstError, T]]): Either[AstError, Vector[T]] = {
s.foldLeft[Either[AstError, Vector[T]]](Right(Vector.empty)) {
case (Left(l), _) => Left(l)
case (_, Left(l)) => Left(l)
case (Right(xs), Right(x)) => Right(xs :+ x)
}
}
def parseMessage[T <: GeneratedMessage](
v: GeneratedMessageCompanion[T],
ast: TMessage
): Either[AstError, T] = {
parseUnsafe(v, ast).right.map(v.messageReads.read)
}
def checkBigInt(
p: TPrimitive,
isSigned: Boolean = true,
isLong: Boolean
): Either[AstError, BigInt] = p match {
case TIntLiteral(index, v) =>
val negative = v.signum == -1
val maxBits = if (isLong) {
if (isSigned) 63 else 64
} else {
if (isSigned) 31 else 32
}
if (!isSigned && negative)
Left(AstError(index, s"Number must be positive: $v"))
else if (v.bitLength > maxBits)
Left(
AstError(
index,
s"Number out of range for ${if (isLong) 64 else 32}-bit ${if (isSigned) "signed"
else "unsigned"} integer: $v"
)
)
else Right(v)
case p => Left(AstError(p.index, s"Invalid input '${p.asString}'"))
}
def parseInt32(p: TPrimitive) =
checkBigInt(p, isSigned = true, isLong = false).right.map(t => PInt(t.intValue))
def parseUint32(p: TPrimitive) =
checkBigInt(p, isSigned = false, isLong = false).right.map(t => PInt(t.intValue))
def parseInt64(p: TPrimitive) =
checkBigInt(p, isSigned = true, isLong = true).right.map(t => PLong(t.longValue))
def parseUint64(p: TPrimitive) =
checkBigInt(p, isSigned = false, isLong = true).right.map(t => PLong(t.longValue))
private def parseUnsafe(
v: GeneratedMessageCompanion[_],
ast: TMessage
): Either[AstError, PMessage] = {
def parseDouble(p: TPrimitive): Either[AstError, PDouble] = p match {
case TLiteral(_, value) =>
val low = value.toLowerCase()
low match {
case "inf" | "infinity" => Right(PDouble(Double.PositiveInfinity))
case "-inf" | "-infinity" => Right(PDouble(Double.NegativeInfinity))
case "nan" => Right(PDouble(Double.NaN))
case _ =>
Try(PDouble(value.toDouble)).toOption
.toRight(AstError(p.index, s"Invalid value for double: '$value'"))
}
case TIntLiteral(_, value) => Right(PDouble(value.toDouble))
case p => Left(AstError(p.index, s"Invalid input '${p.asString}', expected float"))
}
def parseFloat(p: TPrimitive): Either[AstError, PFloat] = p match {
case TLiteral(_, value) =>
val low = value.toLowerCase()
low match {
case "inf" | "inff" | "infinity" | "infinityf" => Right(PFloat(Float.PositiveInfinity))
case "-inf" | "-inff" | "-infinity" | "-infinityf" =>
Right(PFloat(Float.NegativeInfinity))
case "nan" | "nanf" => Right(PFloat(Float.NaN))
case _ =>
Try(PFloat(value.toFloat)).toOption
.toRight(AstError(p.index, s"Invalid value for float: '$value'"))
}
case TIntLiteral(_, value) => Right(PFloat(value.toFloat))
case p => Left(AstError(p.index, s"Invalid input '${p.asString}', expected float"))
}
def parseBoolean(p: TPrimitive): Either[AstError, PBoolean] = {
def invalidInput(v: String): String = s"Invalid input '$v', expected 'true' or 'false'"
p match {
case TIntLiteral(index, v) =>
if (v == 0) Right(PBoolean(false))
else if (v == 1) Right(PBoolean(true))
else Left(AstError(index, invalidInput(v.toString)))
case TLiteral(index, v) =>
v.toLowerCase match {
case "t" | "true" => Right(PBoolean(true))
case "f" | "false" => Right(PBoolean(false))
case _ => Left(AstError(index, invalidInput(v.toString)))
}
case TBytes(_, v) => Left(AstError(p.index, invalidInput(v)))
}
}
def parseString(p: TPrimitive): Either[AstError, PString] = p match {
case TBytes(_, value) =>
TextFormatUtils.unescapeText(value).right.map(PString).left.map { error =>
AstError(p.index, error.msg)
}
case p => Left(AstError(p.index, s"Invalid input '${p.asString}', expected string"))
}
def parseBytes(p: TPrimitive): Either[AstError, PByteString] = p match {
case TBytes(_, value) =>
TextFormatUtils.unescapeBytes(value).right.map(PByteString).left.map { error =>
AstError(p.index, error.msg)
}
case _ => Left(AstError(p.index, "Unexpected input"))
}
def parsePrimitive(field: FieldDescriptor, p: TPrimitive): Either[AstError, PValue] =
field.protoType match {
case FieldDescriptorProto.Type.TYPE_DOUBLE => parseDouble(p)
case FieldDescriptorProto.Type.TYPE_FLOAT => parseFloat(p)
case FieldDescriptorProto.Type.TYPE_INT64 => parseInt64(p)
case FieldDescriptorProto.Type.TYPE_UINT64 => parseUint64(p)
case FieldDescriptorProto.Type.TYPE_INT32 => parseInt32(p)
case FieldDescriptorProto.Type.TYPE_FIXED64 => parseUint64(p)
case FieldDescriptorProto.Type.TYPE_FIXED32 => parseUint32(p)
case FieldDescriptorProto.Type.TYPE_BOOL => parseBoolean(p)
case FieldDescriptorProto.Type.TYPE_STRING => parseString(p)
case FieldDescriptorProto.Type.TYPE_BYTES => parseBytes(p)
case FieldDescriptorProto.Type.TYPE_UINT32 => parseUint32(p)
case FieldDescriptorProto.Type.TYPE_SFIXED32 => parseInt32(p)
case FieldDescriptorProto.Type.TYPE_SFIXED64 => parseInt64(p)
case FieldDescriptorProto.Type.TYPE_SINT32 => parseInt32(p)
case FieldDescriptorProto.Type.TYPE_SINT64 => parseInt64(p)
case FieldDescriptorProto.Type.TYPE_GROUP =>
Left(AstError(p.index, "groups are not supported"))
case FieldDescriptorProto.Type.TYPE_ENUM => {
val enumDesc = v.enumCompanionForFieldNumber(field.number).scalaDescriptor
p match {
case TIntLiteral(index, num) =>
enumDesc.values
.find(_.number == num.toInt)
.map(PEnum)
.toRight(
AstError(
index,
s"""Expected Enum type "${enumDesc.asProto.getName}" has no value with number ${num.toString}"""
)
)
case TLiteral(index, name) =>
enumDesc.values
.find(_.name == name)
.map(PEnum)
.toRight(
AstError(
index,
s"""Expected Enum type "${enumDesc.asProto.getName}" has no value named "${name}""""
)
)
case p =>
Left(
AstError(
p.index,
s"""Invalid value '${p.asString}, expected Enum type "${enumDesc.asProto.getName}""""
)
)
}
}
case _ => Left(AstError(p.index, "This should not happen."))
}
def pfieldToValue(fd: FieldDescriptor, pfield: TField): Either[AstError, PValue] =
pfield.value match {
case arr: TArray =>
if (!fd.isRepeated)
Left(
AstError(
arr.index,
s"Invalid input '[', expected ${fd.protoType.toString.toLowerCase}"
)
)
else {
if (fd.protoType.isTypeMessage) {
val idx = arr.values.indexWhere(!_.isInstanceOf[TMessage])
if (idx != -1)
Left(AstError(arr.index, s"Array contain a non-message value at index ${idx}"))
else
flatten(
arr.values
.map(t =>
parseUnsafe(
v.messageCompanionForFieldNumber(fd.number),
t.asInstanceOf[TMessage]
)
)
.toVector
).right.map(PRepeated)
} else {
val idx = arr.values.indexWhere(!_.isInstanceOf[TPrimitive])
if (idx != -1) Left(AstError(arr.index, s"Unexpected value at index $idx"))
else
flatten(
arr.values.map(t => parsePrimitive(fd, t.asInstanceOf[TPrimitive])).toVector
).right.map(PRepeated)
}
}
case p: TPrimitive =>
if (fd.protoType.isTypeMessage) Left(AstError(p.index, "invalid value for message"))
else {
parsePrimitive(fd, p)
}
case p: TMessage =>
if (!fd.protoType.isTypeMessage) Left(AstError(p.index, "invalid value for message"))
else {
parseUnsafe(v.messageCompanionForFieldNumber(fd.number), p)
}
}
val fieldMap: Map[String, FieldDescriptor] =
v.scalaDescriptor.fields.map(f => (f.name, f)).toMap
val fields: Map[String, Seq[TField]] = ast.fields.groupBy(_.name)
def fieldGroupToValue(
name: String,
group: Seq[TField]
): Either[AstError, (FieldDescriptor, PValue)] = {
val fd: FieldDescriptor = fieldMap(name)
val values: Either[AstError, Vector[PValue]] = flatten(group.map(pfieldToValue(fd, _)))
values.right.map { t: Seq[PValue] =>
if (!fd.isRepeated) fd -> t.last
else
fd -> PRepeated(t.foldLeft(Vector[PValue]()) {
case (xs, PRepeated(ys)) => xs ++ ys
case (xs, t: PValue) => xs :+ t
})
}
}
val maybeMap: Either[AstError, Vector[(FieldDescriptor, PValue)]] =
ast.fields.find(f => !fieldMap.contains(f.name)) match {
case Some(f) => Left(AstError(f.index, s"Unknown field name '${f.name}'"))
case None => flatten(fields.map((fieldGroupToValue _).tupled).toVector)
}
maybeMap.right.map(t => PMessage(t.toMap))
}
}