abstract class Molecule21[A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U] extends Molecule[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
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- Molecule21
- Molecule
- ShowDebug
- GetAsyncJson
- GetAsyncRaw
- GetAsyncList
- GetAsyncIterable
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- GetJson
- GetRaw
- GetList
- GetIterable
- GetArray
- JsonBuilder
- CastHelpers
- CastHelpersAggr
- CastHelpersOptNested
- Helpers
- DateHandling
- RegexMatching
- MoleculeBase
- AnyRef
- Any
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Instance Constructors
Type Members
- trait checkInsertModel extends AnyRef
Insert data is verified on instantiation of
insert
object in each arity moleculeInsert data is verified on instantiation of
insert
object in each arity molecule- Attributes
- protected
- Definition Classes
- Molecule
- trait debugInsert extends AnyRef
Debug call to
insert
on a molecule (without affecting the db).Debug call to
insert
on a molecule (without affecting the db).
Prints internal molecule transformation representations to output:
Model --> Generic statements --> Datomic statements- Definition Classes
- Molecule
- trait getInsertTx extends AnyRef
Get transaction statements of a call to
insert
on a molecule (without affecting the db).Get transaction statements of a call to
insert
on a molecule (without affecting the db).- returns
Transaction statements
- Definition Classes
- Molecule
- trait insert extends AnyRef
Insert one or more rows of data matching molecule.
Insert one or more rows of data matching molecule.
ReturnsFuture
with TxReport having info about the result of the insert transaction.
Data matching the types of the molecule can be inserted either as individual args or an Iterable (List, Set etc) of tuples:// Insert single row of data with individual args Person.name.age.insert("Ann", 28) // Insert multiple rows of data. Accepts Iterable[Tpl] Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) // Data was inserted Person.name.age.get.sorted === List( ("Ann", 28), ("Ben", 42), ("Liz", 37) )
Each insert apply method returns a TxReport with info about the result of the transaction.
Sinceinsert
is an object of each arity 1-22 Molecule implementation, we can make an "insert-molecule" at compile time that we can re-use for inserting data at runtime matching the molecule type:// At compiletime: // Make insert-molecule val insertPersonsWithAge = Person.name.age.insert // At runtime: // Apply individual args matching insert-molecule to insert single row insertPersonsWithAge("Ann", 28) // .. or apply Iterable of tuples matching insert-molecule to insert multiple rows insertPersonsWithAge( List( ("Ben", 42), ("Liz", 37) ) ) // Data was inserted Person.name.age.get.sorted === List( ("Ann", 28), ("Ben", 42), ("Liz", 37) )
The insert operation is synchronous and blocking. Use
insertAsync
for non-blocking asynchronous inserts.- Definition Classes
- Molecule
- trait insertAsync extends AnyRef
Asynchronously insert one or more rows of data matching molecule.
Asynchronously insert one or more rows of data matching molecule.
ReturnsFuture
with TxReport having info about the result of the insert transaction.
Data matching the types of the molecule can be inserted either as individual args or an Iterable (List, Set etc) of tuples:// Insert single row of data with individual args val singleInsertFuture: Future[TxReport] = Person.name.age.insertAsync("Ann", 28) // Insert multiple rows of data. Accepts Iterable[Tpl] val multipleInsertFuture: Future[TxReport] = Person.name.age insertAsync List( ("Ben", 42), ("Liz", 37) ) for { _ <- singleInsertFuture _ <- multipleInsertFuture result <- Person.name.age.getAsync } yield { // Both inserts applied result === List( ("Ann", 28), ("Ben", 42), ("Liz", 37) ) }
The insert operation is asynchronous and non-blocking. Internally calls Datomic's asynchronous API.
- Definition Classes
- Molecule
- implicit class Regex extends AnyRef
- Definition Classes
- RegexMatching
Value Members
- final def !=(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
- final def ##: Int
- Definition Classes
- AnyRef → Any
- final def ==(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
- def _debugInsert(conn: Conn, dataRows: Iterable[Seq[Any]]): Unit
- Attributes
- protected
- Definition Classes
- ShowDebug
- def _getInsertTx(conn: Conn, dataRows: Iterable[Seq[Any]]): Seq[Seq[Statement]]
- Attributes
- protected
- Definition Classes
- Molecule
- def _insert(conn: Conn, model: Model, dataRows: Iterable[Seq[Any]]): TxReport
- Attributes
- protected
- Definition Classes
- Molecule
- def _insertAsync(conn: Conn, model: Model, dataRows: Iterable[Seq[Any]])(implicit ec: ExecutionContext): Future[TxReport]
- Attributes
- protected
- Definition Classes
- Molecule
- val _model: Model
Internal Model representation of molecule.
Internal Model representation of molecule.
Molecule transforms custom boilerplate DSL constructs to Datomic queries in 3 steps:
Custom DSL molecule --> Model --> Query --> Datomic query string- Definition Classes
- Molecule21 → MoleculeBase
- val _nestedQuery: Option[Query]
Internal optional Query representation of nested molecule with added entity search for each level.
Internal optional Query representation of nested molecule with added entity search for each level.
Molecule transforms custom boilerplate DSL constructs to Datomic queries in 3 steps:
Custom DSL molecule --> Model --> Query --> Datomic query string- Definition Classes
- Molecule21 → MoleculeBase
- val _query: Query
Internal Query representation of molecule.
Internal Query representation of molecule.
Molecule transforms custom boilerplate DSL constructs to Datomic queries in 3 steps:
Custom DSL molecule --> Model --> Query --> Datomic query string- Definition Classes
- Molecule21 → MoleculeBase
- val _rawNestedQuery: Option[Query]
Internal un-optimized optional Query representation of nested molecule with added entity search for each level.
Internal un-optimized optional Query representation of nested molecule with added entity search for each level.
Molecule transforms custom boilerplate DSL constructs to Datomic queries in 3 steps:
Custom DSL molecule --> Model --> Query --> Datomic query string- Definition Classes
- Molecule21 → MoleculeBase
- val _rawQuery: Query
Internal un-optimized Query representation molecule.
Internal un-optimized Query representation molecule.
Molecule transforms custom boilerplate DSL constructs to Datomic queries in 3 steps:
Custom DSL molecule --> Model --> Query --> Datomic query string- Definition Classes
- Molecule21 → MoleculeBase
- final def asInstanceOf[T0]: T0
- Definition Classes
- Any
- def cast(value: Any): String
- Attributes
- protected
- Definition Classes
- Helpers
- def castAggrManyList[T](row: List[_], i: Int): List[Set[T]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListBigDecimal(row: List[_], i: Int): List[Set[BigDecimal]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListBigInt(row: List[_], i: Int): List[Set[BigInt]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListDistinct[T](row: List[_], i: Int): List[Set[T]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListDistinctBigDecimal(row: List[_], i: Int): List[Set[BigDecimal]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListDistinctBigInt(row: List[_], i: Int): List[Set[BigInt]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListDistinctFloat(row: List[_], i: Int): List[Set[Float]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListDistinctInt(row: List[_], i: Int): List[Set[Int]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListFloat(row: List[_], i: Int): List[Set[Float]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListInt(row: List[_], i: Int): List[Set[Int]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListRand[T](row: List[_], i: Int): List[Set[T]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListRandBigDecimal(row: List[_], i: Int): List[Set[BigDecimal]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListRandBigInt(row: List[_], i: Int): List[Set[BigInt]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListRandFloat(row: List[_], i: Int): List[Set[Float]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManyListRandInt(row: List[_], i: Int): List[Set[Int]]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManySingle[T](row: List[_], i: Int): Set[T]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManySingleBigDecimal(row: List[_], i: Int): Set[BigDecimal]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManySingleBigInt(row: List[_], i: Int): Set[BigInt]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManySingleFloat(row: List[_], i: Int): Set[Float]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrManySingleInt(row: List[_], i: Int): Set[Int]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneList[T](row: List[_], i: Int): List[T]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListBigDecimal(row: List[_], i: Int): List[BigDecimal]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListBigInt(row: List[_], i: Int): List[BigInt]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListDistinct[T](row: List[_], i: Int): List[T]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListDistinctBigDecimal(row: List[_], i: Int): List[BigDecimal]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListDistinctBigInt(row: List[_], i: Int): List[BigInt]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListDistinctFloat(row: List[_], i: Int): List[Float]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListDistinctInt(row: List[_], i: Int): List[Int]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListFloat(row: List[_], i: Int): List[Float]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListInt(row: List[_], i: Int): List[Int]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListRand[T](row: List[_], i: Int): List[T]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListRandBigDecimal(row: List[_], i: Int): List[BigDecimal]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListRandBigInt(row: List[_], i: Int): List[BigInt]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListRandFloat(row: List[_], i: Int): List[Float]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrOneListRandInt(row: List[_], i: Int): List[Int]
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrSingleSample[T](row: List[_], i: Int): T
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrSingleSampleBigDecimal(row: List[_], i: Int): BigDecimal
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrSingleSampleBigInt(row: List[_], i: Int): BigInt
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrSingleSampleFloat(row: List[_], i: Int): Float
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castAggrSingleSampleInt(row: List[_], i: Int): Int
- Attributes
- protected
- Definition Classes
- CastHelpersAggr
- def castMany[T](row: List[_], i: Int): Set[T]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castManyBigDecimal(row: List[_], i: Int): Set[BigDecimal]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castManyBigInt(row: List[_], i: Int): Set[BigInt]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castManyEnum(row: List[_], i: Int): Set[String]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castManyFloat(row: List[_], i: Int): Set[Float]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castManyInt(row: List[_], i: Int): Set[Int]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castMapBigDecimal(row: List[_], i: Int): Map[String, BigDecimal]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castMapBigInt(row: List[_], i: Int): Map[String, BigInt]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castMapBoolean(row: List[_], i: Int): Map[String, Boolean]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castMapDate(row: List[_], i: Int): Map[String, Date]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castMapDouble(row: List[_], i: Int): Map[String, Double]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castMapFloat(row: List[_], i: Int): Map[String, Float]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castMapInt(row: List[_], i: Int): Map[String, Int]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castMapLong(row: List[_], i: Int): Map[String, Long]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castMapString(row: List[_], i: Int): Map[String, String]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castMapURI(row: List[_], i: Int): Map[String, URI]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castMapUUID(row: List[_], i: Int): Map[String, UUID]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOne[T](row: List[_], i: Int): T
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOneBigDecimal(row: List[_], i: Int): BigDecimal
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOneBigInt(row: List[_], i: Int): BigInt
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOneFloat(row: List[_], i: Int): Float
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOneInt(row: List[_], i: Int): Int
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOneInt2(row: List[_], i: Int): Int
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMany[T](row: List[_], i: Int): Option[Set[T]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyApply[T](row: List[_], i: Int): Option[Set[T]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyApplyBigDecimal(row: List[_], i: Int): Option[Set[BigDecimal]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyApplyBigInt(row: List[_], i: Int): Option[Set[BigInt]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyApplyDouble(row: List[_], i: Int): Option[Set[Double]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyApplyFloat(row: List[_], i: Int): Option[Set[Float]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyApplyInt(row: List[_], i: Int): Option[Set[Int]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyApplyLong(row: List[_], i: Int): Option[Set[Long]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyBigDecimal(row: List[_], i: Int): Option[Set[BigDecimal]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyBigInt(row: List[_], i: Int): Option[Set[BigInt]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyDouble(row: List[_], i: Int): Option[Set[Double]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyEnum(row: List[_], i: Int): Option[Set[String]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyFloat(row: List[_], i: Int): Option[Set[Float]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyInt(row: List[_], i: Int): Option[Set[Int]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyLong(row: List[_], i: Int): Option[Set[Long]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptManyRefAttr(row: List[_], i: Int): Option[Set[Long]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapApplyBigDecimal(row: List[_], i: Int): Option[Map[String, BigDecimal]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapApplyBigInt(row: List[_], i: Int): Option[Map[String, BigInt]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapApplyBoolean(row: List[_], i: Int): Option[Map[String, Boolean]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapApplyDate(row: List[_], i: Int): Option[Map[String, Date]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapApplyDouble(row: List[_], i: Int): Option[Map[String, Double]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapApplyFloat(row: List[_], i: Int): Option[Map[String, Float]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapApplyInt(row: List[_], i: Int): Option[Map[String, Int]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapApplyLong(row: List[_], i: Int): Option[Map[String, Long]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapApplyString(row: List[_], i: Int): Option[Map[String, String]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapApplyURI(row: List[_], i: Int): Option[Map[String, URI]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapApplyUUID(row: List[_], i: Int): Option[Map[String, UUID]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapBigDecimal(row: List[_], i: Int): Option[Map[String, BigDecimal]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapBigInt(row: List[_], i: Int): Option[Map[String, BigInt]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapBoolean(row: List[_], i: Int): Option[Map[String, Boolean]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapDate(row: List[_], i: Int): Option[Map[String, Date]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapDouble(row: List[_], i: Int): Option[Map[String, Double]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapFloat(row: List[_], i: Int): Option[Map[String, Float]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapInt(row: List[_], i: Int): Option[Map[String, Int]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapLong(row: List[_], i: Int): Option[Map[String, Long]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapString(row: List[_], i: Int): Option[Map[String, String]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapURI(row: List[_], i: Int): Option[Map[String, URI]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptMapUUID(row: List[_], i: Int): Option[Map[String, UUID]]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptNestedMany[T](it: Iterator[_]): Set[T]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedManyBigDecimal(it: Iterator[_]): Set[BigDecimal]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedManyBigInt(it: Iterator[_]): Set[BigInt]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedManyEnum(it: Iterator[_]): Set[String]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedManyFloat(it: Iterator[_]): Set[Float]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedManyInt(it: Iterator[_]): Set[Int]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedManyRefAttr(it: Iterator[_]): Set[Long]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedMapBigDecimal(it: Iterator[_]): Map[String, BigDecimal]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedMapBigInt(it: Iterator[_]): Map[String, BigInt]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedMapBoolean(it: Iterator[_]): Map[String, Boolean]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedMapDate(it: Iterator[_]): Map[String, Date]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedMapDouble(it: Iterator[_]): Map[String, Double]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedMapFloat(it: Iterator[_]): Map[String, Float]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedMapInt(it: Iterator[_]): Map[String, Int]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedMapLong(it: Iterator[_]): Map[String, Long]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedMapString(it: Iterator[_]): Map[String, String]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedMapURI(it: Iterator[_]): Map[String, URI]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedMapUUID(it: Iterator[_]): Map[String, UUID]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOne[T](it: Iterator[_]): T
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOneBigDecimal(it: Iterator[_]): BigDecimal
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOneBigInt(it: Iterator[_]): BigInt
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOneEnum(it: Iterator[_]): String
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOneFloat(it: Iterator[_]): Float
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOneInt(it: Iterator[_]): Int
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOneInt2(it: Iterator[_]): Int
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOneRefAttr(it: Iterator[_]): Long
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptMany[T](it: Iterator[_]): Option[Set[T]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptManyBigDecimal(it: Iterator[_]): Option[Set[BigDecimal]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptManyBigInt(it: Iterator[_]): Option[Set[BigInt]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptManyDouble(it: Iterator[_]): Option[Set[Double]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptManyEnum(it: Iterator[_]): Option[Set[String]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptManyFloat(it: Iterator[_]): Option[Set[Float]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptManyInt(it: Iterator[_]): Option[Set[Int]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptManyLong(it: Iterator[_]): Option[Set[Long]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptManyRefAttr(it: Iterator[_]): Option[Set[Long]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptMapBigDecimal(it: Iterator[_]): Option[Map[String, BigDecimal]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptMapBigInt(it: Iterator[_]): Option[Map[String, BigInt]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptMapBoolean(it: Iterator[_]): Option[Map[String, Boolean]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptMapDate(it: Iterator[_]): Option[Map[String, Date]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptMapDouble(it: Iterator[_]): Option[Map[String, Double]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptMapFloat(it: Iterator[_]): Option[Map[String, Float]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptMapInt(it: Iterator[_]): Option[Map[String, Int]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptMapLong(it: Iterator[_]): Option[Map[String, Long]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptMapString(it: Iterator[_]): Option[Map[String, String]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptMapURI(it: Iterator[_]): Option[Map[String, URI]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptMapUUID(it: Iterator[_]): Option[Map[String, UUID]]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptOne[T](it: Iterator[_]): Option[T]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptOneBigDecimal(it: Iterator[_]): Option[BigDecimal]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptOneBigInt(it: Iterator[_]): Option[BigInt]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptOneDouble(it: Iterator[_]): Option[Double]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptOneEnum(it: Iterator[_]): Option[String]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptOneFloat(it: Iterator[_]): Option[Float]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptOneInt(it: Iterator[_]): Option[Int]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptOneLong(it: Iterator[_]): Option[Long]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptNestedOptOneRefAttr(it: Iterator[_]): Option[Long]
- Attributes
- protected
- Definition Classes
- CastHelpersOptNested
- def castOptOne[T](row: List[_], i: Int): Option[T]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneApply[T](row: List[_], i: Int): Option[T]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneApplyBigDecimal(row: List[_], i: Int): Option[BigDecimal]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneApplyBigInt(row: List[_], i: Int): Option[BigInt]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneApplyDouble(row: List[_], i: Int): Option[Double]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneApplyFloat(row: List[_], i: Int): Option[Float]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneApplyInt(row: List[_], i: Int): Option[Int]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneApplyLong(row: List[_], i: Int): Option[Long]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneBigDecimal(row: List[_], i: Int): Option[BigDecimal]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneBigInt(row: List[_], i: Int): Option[BigInt]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneDouble(row: List[_], i: Int): Option[Double]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneEnum(row: List[_], i: Int): Option[String]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneFloat(row: List[_], i: Int): Option[Float]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneInt(row: List[_], i: Int): Option[Int]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneLong(row: List[_], i: Int): Option[Long]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castOptOneRefAttr(row: List[_], i: Int): Option[Long]
- Attributes
- protected
- Definition Classes
- CastHelpers
- def castRow(row: List[AnyRef]): (A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)
- Attributes
- protected
- Definition Classes
- CastHelpers
- def clean(attr: String): String
- Definition Classes
- Helpers
- def clone(): AnyRef
- Attributes
- protected[lang]
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.CloneNotSupportedException]) @native()
- def date2datomicStr(date: Date, zoneOffset: ZoneOffset = localZoneOffset): String
- Definition Classes
- DateHandling
- def date2str(date: Date, zoneOffset: ZoneOffset = localZoneOffset): String
- Definition Classes
- DateHandling
- def daylight(ms: Long): Int
- Definition Classes
- DateHandling
- def debugGet(implicit conn: Conn): Unit
Debug call to
get
on a molecule (without affecting the db).Debug call to
get
on a molecule (without affecting the db).
Prints the following to output:
1. Internal molecule transformation representations:
Molecule DSL --> Model --> Query --> Datomic query
2. Data returned from get query (max 500 rows). OBS: printing raw Date's (Clojure Instant) will miss the time-zone- conn
Implicit Conn value in scope
- Definition Classes
- ShowDebug
- def debugGetAsOf(date: Date)(implicit conn: Conn): Unit
Debug call to
getAsOf(date)
on a molecule (without affecting the db).Debug call to
getAsOf(date)
on a molecule (without affecting the db).
Prints the following to output:
1. Internal molecule transformation representations:
Molecule DSL --> Model --> Query --> Datomic query
2. Data returned from get query (max 500 rows).- conn
Implicit Conn value in scsope
- Definition Classes
- ShowDebug
- def debugGetAsOf(tx: TxReport)(implicit conn: Conn): Unit
Debug call to
getAsOf(tx)
on a molecule (without affecting the db).Debug call to
getAsOf(tx)
on a molecule (without affecting the db).
Prints the following to output:
1. Internal molecule transformation representations:
Molecule DSL --> Model --> Query --> Datomic query
2. Data returned from get query (max 500 rows).- Definition Classes
- ShowDebug
- def debugGetAsOf(t: Long)(implicit conn: Conn): Unit
Debug call to
getAsOf(t)
on a molecule (without affecting the db).Debug call to
getAsOf(t)
on a molecule (without affecting the db).
Prints the following to output:
1. Internal molecule transformation representations:
Molecule DSL --> Model --> Query --> Datomic query
2. Data returned from get query (max 500 rows).- conn
Implicit Conn value in scope
- Definition Classes
- ShowDebug
- def debugGetHistory(implicit conn: Conn): Unit
Debug call to
getHistory
on a molecule (without affecting the db).Debug call to
getHistory
on a molecule (without affecting the db).
Prints the following to output:
1. Internal molecule transformation representations:
Molecule DSL --> Model --> Query --> Datomic query
2. Data returned from get query (max 500 rows).- conn
Implicit Conn value in scope
- Definition Classes
- ShowDebug
- def debugGetSince(date: Date)(implicit conn: Conn): Unit
Debug call to
getSince(date)
on a molecule (without affecting the db).Debug call to
getSince(date)
on a molecule (without affecting the db).
Prints the following to output:
1. Internal molecule transformation representations:
Molecule DSL --> Model --> Query --> Datomic query
2. Data returned from get query (max 500 rows).- conn
Implicit Conn value in scope
- Definition Classes
- ShowDebug
- def debugGetSince(tx: TxReport)(implicit conn: Conn): Unit
Debug call to
getSince(tx)
on a molecule (without affecting the db).Debug call to
getSince(tx)
on a molecule (without affecting the db).
Prints the following to output:
1. Internal molecule transformation representations:
Molecule DSL --> Model --> Query --> Datomic query
2. Data returned from get query (max 500 rows).- Definition Classes
- ShowDebug
- def debugGetSince(t: Long)(implicit conn: Conn): Unit
Debug call to
getSince(t)
on a molecule (without affecting the db).Debug call to
getSince(t)
on a molecule (without affecting the db).
Prints the following to output:
1. Internal molecule transformation representations:
Molecule DSL --> Model --> Query --> Datomic query
2. Data returned from get query (max 500 rows).- conn
Implicit Conn value in scope
- Definition Classes
- ShowDebug
- def debugGetWith(txData: List[List[_]])(implicit conn: Conn): Unit
Debug call to
getWith(txData)
on a molecule (without affecting the db).Debug call to
getWith(txData)
on a molecule (without affecting the db).
Prints the following to output:
1. Internal molecule transformation representations:
Molecule DSL --> Model --> Query --> Datomic query
2. Data returned from get query (max 500 rows).
3. Transactions of applied transaction data.- txData
Raw transaction data as java.util.List[Object]
- conn
Implicit Conn value in scope
- Definition Classes
- ShowDebug
- def debugGetWith(txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): Unit
Debug call to
getWith(txMolecules)
on a molecule (without affecting the db).Debug call to
getWith(txMolecules)
on a molecule (without affecting the db).
Prints the following to output:
1. Internal molecule transformation representations:
Molecule DSL --> Model --> Query --> Datomic query
2. Data returned from get query (max 500 rows).
3. Transactions of applied transaction molecules.- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- Definition Classes
- ShowDebug
- def debugSave(implicit conn: Conn): Unit
Debug call to
save
on a molecule (without affecting the db). - def debugUpdate(implicit conn: Conn): Unit
Debug call to
update
on a molecule (without affecting the db). - final def eq(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
- def equals(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef → Any
- def escStr(s: String): String
- Definition Classes
- Helpers
- def expandDateStr(dateStr: String): String
- Definition Classes
- DateHandling
- final def f(a: Any): Any
- Attributes
- protected
- Definition Classes
- Helpers
- def finalize(): Unit
- Attributes
- protected[lang]
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.Throwable])
- def get(n: Int)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of n rows as tuples matching molecule.Get
List
of n rows as tuples matching molecule.
Only n rows are type-casted.Person.name.age.get(1) === List( ("Ben", 42) )
Since retrieving a List is considered the default fetch format, the getter method is simply named
get
(and notgetList
).- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of types matching the attributes of the molecule
- def get(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of all rows as tuples matching molecule.Get
List
of all rows as tuples matching molecule.Person.name.age.get === List( ("Ben", 42), ("Liz", 37), )
Since retrieving a List is considered the default fetch format, the getter method is simply named
get
(and notgetList
).- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of types matching the attributes of the molecule
- def getArray(n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of n rows as tuples matching molecule.Get
Array
of n rows as tuples matching molecule.Person.name.age.getArray(1) === Array( ("Ben", 42) )
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples. Setting n to -1 fetches all rows (same as callinggetArray
without any number of rows parameter).- n
Number of rows. If -1, all rows are fetched.
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of types matching the attributes of the molecule
- Definition Classes
- GetArray
- See also
Equivalent asynchronous getAsyncArray method.
- def getArray(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of all rows as tuples matching molecule.Get
Array
of all rows as tuples matching molecule.Person.name.age.getArray === Array( ("Ben", 42), ("Liz", 37) )
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of types matching the attributes of the molecule
- Definition Classes
- GetArray
- See also
Equivalent asynchronous getAsyncArray method.
- def getArrayAsOf(date: Date, n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of n rows as tuples matching molecule as of date.Get
Array
of n rows as tuples matching molecule as of date.
Get data at a human point in time (a java.util.Date).val beforeInsert = new java.util.Date // Insert val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) val List(ben, liz) = tx1.eids val afterInsert = new java.util.Date // Update val tx2 = Person(ben).age(43).update val afterUpdate = new java.util.Date // Get Array of all rows as of afterUpdate Person.name.age.getArrayAsOf(afterUpdate) === Array( ("Ben", 43), ("Liz", 37) ) // Get Array of n rows as of afterUpdate Person.name.age.getArrayAsOf(afterUpdate, 1) === Array( ("Ben", 43) )
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncArrayAsOf method.
- def getArrayAsOf(date: Date)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of all rows as tuples matching molecule as of date.Get
Array
of all rows as tuples matching molecule as of date.
Get data at a human point in time (a java.util.Date).val beforeInsert = new java.util.Date // Insert val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) val List(ben, liz) = tx1.eids val afterInsert = new java.util.Date // Update val tx2 = Person(ben).age(43).update val afterUpdate = new java.util.Date // Retract val tx3 = ben.retract val afterRetract = new java.util.Date // No data yet before insert Person.name.age.getArrayAsOf(beforeInsert) === Array() // Get Array of all rows as of afterInsert Person.name.age.getArrayAsOf(afterInsert) === Array( ("Ben", 42), ("Liz", 37) ) // Get Array of all rows as of afterUpdate Person.name.age.getArrayAsOf(afterUpdate) === Array( ("Ben", 43), // Ben now 43 ("Liz", 37) ) // Get Array of all rows as of afterRetract Person.name.age.getArrayAsOf(afterRetract) === Array( ("Liz", 37) // Ben gone )
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
- date
java.util.Date
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncArrayAsOf method.
- def getArrayAsOf(tx: TxReport, n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of n rows as tuples matching molecule as of tx.Get
Array
of n rows as tuples matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.// Insert (tx report 1) val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) val List(ben, liz) = tx1.eids // Update (tx report 2) val tx2 = Person(ben).age(43).update // Get Array of all rows as of tx2 (after update) Person.name.age.getArrayAsOf(tx2) === Array( ("Ben", 43), ("Liz", 37) ) // Get Array of n rows as of tx2 (after update) Person.name.age.getArrayAsOf(tx2, 1) === Array( ("Ben", 43) )
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- tx
TxReport (returned from all molecule transaction operations)
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncArrayAsOf method.
- def getArrayAsOf(tx: TxReport)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of all rows as tuples matching molecule as of tx.Get
Array
of all rows as tuples matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.// Insert (tx report 1) val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) val List(ben, liz) = tx1.eids // Update (tx report 2) val tx2 = Person(ben).age(43).update // Retract (tx report 3) val tx3 = ben.retract // Get Array of all rows as of tx1 (after insert) Person.name.age.getArrayAsOf(tx1) === Array( ("Ben", 42), ("Liz", 37) ) // Get Array of all rows as of tx2 (after update) Person.name.age.getArrayAsOf(tx2) === Array( ("Ben", 43), // Ben now 43 ("Liz", 37) ) // Get Array of all rows as of tx3 (after retract) Person.name.age.getArrayAsOf(tx3) === Array( ("Liz", 37) // Ben gone )
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncArrayAsOf method.
- def getArrayAsOf(t: Long, n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of n rows as tuples matching molecule as of transaction timet
.Get
Array
of n rows as tuples matching molecule as of transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction):// Insert (t 1028) val List(ben, liz) = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) eids // Update (t 1031) Person(ben).age(43).update // History of Ben Person(ben).age.t.op.getHistory.sortBy(r => (r._2, r._3)) === List( (42, 1028, true), // Insert: 42 asserted (42, 1031, false), // Update: 42 retracted (43, 1031, true), // 43 asserted ) // Get Array of all rows as of transaction t 1031 (after update) Person.name.age.getArrayAsOf(1031) === Array( ("Ben", 43), ("Liz", 37) ) // Get Array of n rows as of transaction t 1031 (after update) Person.name.age.getArrayAsOf(1031, 1) === Array( ("Ben", 43) )
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- t
Long Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncArrayAsOf method.
- def getArrayAsOf(t: Long)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of all rows as tuples matching molecule as of transaction timet
.Get
Array
of all rows as tuples matching molecule as of transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction):// Insert (t 1028) val List(ben, liz) = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) eids // Update (t 1031) Person(ben).age(43).update // Retract (t 1032) ben.retract // History of Ben Person(ben).age.t.op.getHistory.sortBy(r => (r._2, r._3)) === List( (42, 1028, true), // Insert: 42 asserted (42, 1031, false), // Update: 42 retracted (43, 1031, true), // 43 asserted (43, 1032, false) // Retract: 43 retracted ) // Get Array of data as of transaction t 1028 (after insert) Person.name.age.getArrayAsOf(1028) === Array( ("Ben", 42), ("Liz", 37) ) // Get Array of all rows as of transaction t 1031 (after update) Person.name.age.getArrayAsOf(1031) === Array( ("Ben", 43), ("Liz", 37) ) // Get Array of all rows as of transaction t 1032 (after retract) Person.name.age.getArrayAsOf(1032) === Array( ("Liz", 37) )
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
- t
Transaction time t
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncArrayAsOf method.
- def getArraySince(date: Date, n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of n rows as tuples matching molecule since date.Get
Array
of n rows as tuples matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).// Transact 3 times (`inst` retrieves transaction time/Date from tx report) val date1 = Person.name("Ann").save.inst val date2 = Person.name("Ben").save.inst val date3 = Person.name("Cay").save.inst // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since date1 Person.name.getArraySince(date1) === Array("Ben", "Cay") // Ben and Cay added since date1 - only n (1) rows returned Person.name.getArraySince(date1, 1) === Array("Ben")
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncArraySince method.
- def getArraySince(date: Date)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of all rows as tuples matching molecule since date.Get
Array
of all rows as tuples matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).// Transact 3 times (`inst` retrieves transaction time/Date from tx report) val date1 = Person.name("Ann").save.inst val date2 = Person.name("Ben").save.inst val date3 = Person.name("Cay").save.inst // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since date1 Person.name.getArraySince(date1) === Array("Ben", "Cay") // Cay added since date2 Person.name.getArraySince(date2) === Array("Cay") // Nothing added since date3 Person.name.getArraySince(date3) === Nil
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
- date
java.util.Date
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncArraySince method.
- def getArraySince(tx: TxReport, n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of n rows as tuples matching molecule since tx.Get
Array
of n rows as tuples matching molecule since tx.
Datomic's internalsince
can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we getAsync a TxReport from transaction operations likeget
,update
,retract
etc.// Get tx reports for 3 transactions val tx1 = Person.name("Ann").save val tx2 = Person.name("Ben").save val tx3 = Person.name("Cay").save // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since tx1 Person.name.getArraySince(tx1) === Array("Ben", "Cay") // Ben and Cay added since tx1 - only n (1) rows returned Person.name.getArraySince(tx1, 1) === Array("Ben")
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- tx
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncArraySince method.
- def getArraySince(tx: TxReport)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of all rows as tuples matching molecule since tx.Get
Array
of all rows as tuples matching molecule since tx.
Datomic's internalsince
can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we getAsync a TxReport from transaction operations likeget
,update
,retract
etc.// Get tx reports for 3 transactions val tx1 = Person.name("Ann").save val tx2 = Person.name("Ben").save val tx3 = Person.name("Cay").save // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since tx1 Person.name.getArraySince(tx1) === Array("Ben", "Cay") // Cay added since tx2 Person.name.getArraySince(tx2) === Array("Cay") // Nothing added since tx3 Person.name.getArraySince(tx3) === Nil
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
- tx
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncArraySince method.
- def getArraySince(t: Long, n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of n rows as tuples matching molecule since transaction timet
.Get
Array
of n rows as tuples matching molecule since transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved by callingt
on the tx report returned from transactional operations and then be used to get data since that point in time (excluding that transaction):// 3 transaction times `t` val t1 = Person.name("Ann").save.t val t2 = Person.name("Ben").save.t val t3 = Person.name("Cay").save.t // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since transaction time t 1028 Person.name.getArraySince(t1) === Array("Ben", "Cay") // Ben and Cay added since transaction time t 1028 - only n (1) rows returned Person.name.getArraySince(t1, 1) === Array("Ben")
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- t
Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncArraySince method.
- def getArraySince(t: Long)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of all rows as tuples matching molecule since transaction timet
.Get
Array
of all rows as tuples matching molecule since transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved by callingt
on the tx report returned from transactional operations and then be used to get data since that point in time (excluding that transaction):// 3 transaction times `t` val t1 = Person.name("Ann").save.t val t2 = Person.name("Ben").save.t val t3 = Person.name("Cay").save.t // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since transaction time t 1028 Person.name.getArraySince(t1) === Array("Ben", "Cay") // Cay added since transaction time t 1030 Person.name.getArraySince(t2) === Array("Cay") // Nothing added since transaction time t 1032 Person.name.getArraySince(t3) === Nil
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
- t
Transaction time t
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncArraySince method.
- def getArrayWith(txData: List[_], n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of n rows as tuples matching molecule with applied raw transaction data.Get
Array
of n rows as tuples matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db to see how it would then look:// Live size of Person db Person.name.get.size === 150 // Read some transaction data from file val data_rdr2 = new FileReader("examples/resources/seattle/seattle-data1a.dtm") val newDataTx = Util.readAll(data_rdr2).get(0).asInstanceOf[java.util.List[Object]] // Imagine future db - 100 persons would be added, apparently Person.name.getArrayWith(newDataTx).size === 250 // Imagine future db - Let's just take 10 Person.name.getArrayWith(newDataTx, 10).size === 10
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- txData
Raw transaction data as java.util.List[Object]
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
with
Equivalent asynchronous getAsyncArrayWith method.
- def getArrayWith(txData: List[_])(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of all rows as tuples matching molecule with applied raw transaction data.Get
Array
of all rows as tuples matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db to see how it would then look:// Live size of Person db Person.name.get.size === 150 // Read some transaction data from file val data_rdr2 = new FileReader("examples/resources/seattle/seattle-data1a.dtm") val newDataTx = Util.readAll(data_rdr2).get(0).asInstanceOf[java.util.List[Object]] // Imagine future db - 100 persons would be added, apparently Person.name.getArrayWith(newDataTx).size === 250
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
- txData
Raw transaction data as java.util.List[Object]
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
with
Equivalent asynchronous getAsyncArrayWith method.
- def getArrayWith(n: Int, txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of n rows as tuples matching molecule with applied molecule transaction data.Get
Array
of n rows as tuples matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db to see how it would then look:// Current state val List(ben, liz) = Person.name.likes.insert( ("Ben", "pasta"), ("Liz", "pizza") ).eids // Test multiple transactions Person.name.likes.getArrayWith( Person(ben).likes("sushi").getUpdateTx, Person(liz).likes("cake").getUpdateTx ) === Array( ("Ben", "sushi") ("Liz", "cake") ) // Same as above, but only n (1) rows returned: Person.name.likes.getArrayWith( 1 Person(ben).likes("sushi").getUpdateTx, Person(liz).likes("cake").getUpdateTx ) === Array( ("Ben", "sushi") )
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- n
Int Number of rows returned
- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- Note
Note how the
n
parameter has to come before thetxMolecules
vararg.- See also
Manual on
with
Equivalent asynchronous getAsyncArrayWith method.
- def getArrayWith(txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Array
of all rows as tuples matching molecule with applied molecule transaction data.Get
Array
of all rows as tuples matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db to see how it would then look:// Current state val ben = Person.name("Ben").likes("pasta").save.eid // Base data Person.name.likes.getArrayWith( // apply imaginary transaction data Person(ben).likes("sushi").getUpdateTx ) === Array( // Effect: Ben would like sushi if tx was applied ("Ben", "sushi") ) // Current state is still the same Person.name.likes.get === Array( ("Ben", "pasta") )
Multiple transactions can be applied to test more complex what-if scenarios!
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetArray
- See also
Manual on
with
Equivalent asynchronous getAsyncArrayWith method.
- def getAsOf(date: Date, n: Int)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of n rows as tuples matching molecule as of date.Get
List
of n rows as tuples matching molecule as of date.
Get data at a human point in time (a java.util.Date).val beforeInsert = new java.util.Date // Insert val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) val List(ben, liz) = tx1.eids val afterInsert = new java.util.Date // Update val tx2 = Person(ben).age(43).update val afterUpdate = new java.util.Date // Get List of all rows as of afterUpdate Person.name.age.getAsOf(afterUpdate) === List( ("Ben", 43), ("Liz", 37) ) // Get List of n rows as of afterUpdate Person.name.age.getAsOf(afterUpdate, 1) === List( ("Ben", 43) )
- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncAsOf method.
- def getAsOf(date: Date)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of all rows as tuples matching molecule as of date.Get
List
of all rows as tuples matching molecule as of date.
Get data at a human point in time (a java.util.Date).val beforeInsert = new java.util.Date // Insert val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37), ) val List(ben, liz) = tx1.eids val afterInsert = new java.util.Date // Update val tx2 = Person(ben).age(43).update val afterUpdate = new java.util.Date // Retract val tx3 = ben.retract val afterRetract = new java.util.Date // No data yet before insert Person.name.age.getAsOf(beforeInsert) === Nil // Get List of all rows as of afterInsert Person.name.age.getAsOf(afterInsert) === List( ("Ben", 42), ("Liz", 37)´ ) // Get List of all rows as of afterUpdate Person.name.age.getAsOf(afterUpdate) === List( ("Ben", 43), // Ben now 43 ("Liz", 37) ) // Get List of all rows as of afterRetract Person.name.age.getAsOf(afterRetract) === List( ("Liz", 37) // Ben gone )
- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncAsOf method.
- def getAsOf(tx: TxReport, n: Int)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of n rows as tuples matching molecule as of tx.Get
List
of n rows as tuples matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.// Insert (tx report 1) val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) val List(ben, liz) = tx1.eids // Update (tx report 2) val tx2 = Person(ben).age(43).update // Current data Person.name.age.get === List( ("Ben", 43), ("Liz", 37) ) // Get List of all rows as of tx2 (after update) Person.name.age.getAsOf(tx2) === List( ("Ben", 43), ("Liz", 37) ) // Get List of n rows as of tx2 (after update) Person.name.age.getAsOf(tx2, 1) === List( ("Ben", 43) )
- tx
TxReport (returned from all molecule transaction operations)
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncAsOf method.
- def getAsOf(tx: TxReport)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of all rows as tuples matching molecule as of tx.Get
List
of all rows as tuples matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.// Insert (tx report 1) val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37), ) val List(ben, liz) = tx1.eids // Update (tx report 2) val tx2 = Person(ben).age(43).update // Retract (tx report 3) val tx3 = ben.retract // Get List of all rows as of tx1 (after insert) Person.name.age.getAsOf(tx1) === List( ("Ben", 42), ("Liz", 37) ) // Get List of all rows as of tx2 (after update) Person.name.age.getAsOf(tx2) === List( ("Ben", 43), // Ben now 43 ("Liz", 37) ) // Get List of all rows as of tx3 (after retract) Person.name.age.getAsOf(tx3) === List( ("Liz", 37) // Ben gone )
- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncAsOf method.
- def getAsOf(t: Long, n: Int)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of n rows as tuples matching molecule as of transaction timet
.Get
List
of n rows as tuples matching molecule as of transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction):// Insert (t 1028) val List(ben, liz) = Person.name.age insert List( ("Ben", 42), ("Liz", 37), ) eids // Update (t 1031) Person(ben).age(43).update // History of Ben Person(ben).age.t.op.getHistory.sortBy(r => (r._2, r._3)) === List( (42, 1028, true), // Insert: 42 asserted (42, 1031, false), // Update: 42 retracted (43, 1031, true), // 43 asserted ) // Get List of all all rows as of transaction t 1031 (after update) Person.name.age.getAsOf(1031) === List( ("Ben", 43), ("Liz", 37) ) // Get List of n rows as of transaction t 1031 (after update) Person.name.age.getAsOf(1031, 1) === List( ("Ben", 43) )
- t
Long Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncAsOf method.
- def getAsOf(t: Long)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of all rows as tuples matching molecule as of transaction timet
.Get
List
of all rows as tuples matching molecule as of transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction):// Insert (t 1028) val List(ben, liz) = Person.name.age insert List( ("Ben", 42), ("Liz", 37), ) eids // Update (t 1031) Person(ben).age(43).update // Retract (t 1032) ben.retract // History of Ben Person(ben).age.t.op.getHistory.sortBy(r => (r._2, r._3)) === List( (42, 1028, true), // Insert: 42 asserted (42, 1031, false), // Update: 42 retracted (43, 1031, true), // 43 asserted (43, 1032, false) // Retract: 43 retracted ) // Get List of all rows as of transaction t 1028 (after insert) Person.name.age.getAsOf(1028) === List( ("Liz", 37), ("Ben", 42) ) // Get List of all rows as of transaction t 1031 (after update) Person.name.age.getAsOf(1031) === List( ("Liz", 37), ("Ben", 43) ) // Get List of all rows as of transaction t 1032 (after retract) Person.name.age.getAsOf(1032) === List( ("Liz", 37) )
- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncAsOf method.
- def getAsync(n: Int)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of n rows as tuples matching molecule.Get
Future
withList
of n rows as tuples matching molecule.
For more info and code examples see equivalent synchronous get method.
Since retrieving a List is considered the default fetch format, the getter method is simply namedget
(and notgetList
).- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of types matching the attributes of the molecule
- Definition Classes
- GetAsyncList
- def getAsync(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of all rows as tuples matching molecule.Get
Future
withList
of all rows as tuples matching molecule.
For more info and code examples see equivalent synchronous get method.
Since retrieving a List is considered the default fetch format, the getter method is simply namedget
(and notgetList
).- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of types matching the attributes of the molecule
- Definition Classes
- GetAsyncList
- def getAsyncArray(n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of n rows as tuples matching molecule.Get
Future
withArray
of n rows as tuples matching molecule.
For more info and code examples see equivalent synchronous getArray method.- n
Number of rows
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Future[Array[Tpl]]
where Tpl is a tuple of types matching the attributes of the molecule
- Definition Classes
- GetAsyncArray
- def getAsyncArray(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of all rows as tuples matching molecule.Get
Future
withArray
of all rows as tuples matching molecule.
For more info and code examples see equivalent synchronous getArray method.- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Future[Array[Tpl]]
where Tpl is a tuple of types matching the attributes of the molecule
- Definition Classes
- GetAsyncArray
- def getAsyncArrayAsOf(date: Date, n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of n rows as tuples matching molecule as of date.Get
Future
withArray
of n rows as tuples matching molecule as of date.
Get data at a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getArrayAsOf method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
asof
/since
- def getAsyncArrayAsOf(date: Date)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of all rows as tuples matching molecule as of date.Get
Future
withArray
of all rows as tuples matching molecule as of date.
Get data at a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getArrayAsOf method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.- date
java.util.Date
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
asof
/since
- def getAsyncArrayAsOf(tx: TxReport, n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of n rows as tuples matching molecule as of tx.Get
Future
withArray
of n rows as tuples matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getArrayAsOf method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- tx
TxReport (returned from all molecule transaction operations)
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
asof
/since
- def getAsyncArrayAsOf(tx: TxReport)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of all rows as tuples matching molecule as of tx.Get
Future
withArray
of all rows as tuples matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getArrayAsOf method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
asof
/since
- def getAsyncArrayAsOf(t: Long, n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of n rows as tuples matching molecule as of transaction timet
.Get
Future
withArray
of n rows as tuples matching molecule as of transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction).
For more info and code examples see equivalent synchronous getArrayAsOf method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- t
Long Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
asof
/since
- def getAsyncArrayAsOf(t: Long)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of all rows as tuples matching molecule as of transaction timet
.Get
Future
withArray
of all rows as tuples matching molecule as of transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction).
For more info and code examples see equivalent synchronous getArrayAsOf method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.- t
Transaction time t
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
asof
/since
- def getAsyncArraySince(date: Date, n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of n rows as tuples matching molecule since date.Get
Future
withArray
of n rows as tuples matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getArraySince method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
asof
/since
- def getAsyncArraySince(date: Date)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of all rows as tuples matching molecule since date.Get
Future
withArray
of all rows as tuples matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getArraySince method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.- date
java.util.Date
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
asof
/since
- def getAsyncArraySince(tx: TxReport, n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of n rows as tuples matching molecule since tx.Get
Future
withArray
of n rows as tuples matching molecule since tx.
Datomic's internalsince
can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getArraySince method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- tx
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
asof
/since
- def getAsyncArraySince(tx: TxReport)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of all rows as tuples matching molecule since tx.Get
Future
withArray
of all rows as tuples matching molecule since tx.
Datomic's internalsince
can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getArraySince method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.- tx
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
asof
/since
- def getAsyncArraySince(t: Long, n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of n rows as tuples matching molecule since transaction timet
.Get
Future
withArray
of n rows as tuples matching molecule since transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved by callingt
on the tx report returned from transactional operations and then be used to get data since that point in time (excluding that transaction).
For more info and code examples see equivalent synchronous getArraySince method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- t
Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
asof
/since
- def getAsyncArraySince(t: Long)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of all rows as tuples matching molecule since transaction timet
.Get
Future
withArray
of all rows as tuples matching molecule since transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved by callingt
on the tx report returned from transactional operations and then be used to get data since that point in time (excluding that transaction).
For more info and code examples see equivalent synchronous getArraySince method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.- t
Transaction time t
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
asof
/since
- def getAsyncArrayWith(txData: List[_], n: Int)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of n rows as tuples matching molecule with applied raw transaction data.Get
Future
withArray
of n rows as tuples matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getArrayWith method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- txData
Raw transaction data as java.util.List[Object]
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
with
- def getAsyncArrayWith(txData: List[_])(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of all rows as tuples matching molecule with applied raw transaction data.Get
Future
withArray
of all rows as tuples matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getArrayWith method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.- txData
Raw transaction data as java.util.List[Object]
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
with
- def getAsyncArrayWith(n: Int, txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of n rows as tuples matching molecule with applied molecule transaction data.Get
Future
withArray
of n rows as tuples matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getArrayWith method.
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.
The Array is only populated with n rows of type-casted tuples.- n
Int Number of rows returned
- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- Note
Note how the
n
parameter has to come before thetxMolecules
vararg.- See also
Manual on
with
- def getAsyncArrayWith(txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn, tplType: ClassTag[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]): Future[Array[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withArray
of all rows as tuples matching molecule with applied molecule transaction data.Get
Future
withArray
of all rows as tuples matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getArrayWith method.
Multiple transactions can be applied to test more complex what-if scenarios!
Getting a pre-allocated Array populated with typed data is the fastest way to query Datomic with Molecule. Looping the Array in a while loop with a mutable index pointer will also be the fastest way to traverse the data set.- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- tplType
Implicit
ClassTag[Tpl]
to capture Tuple type for Array- returns
Array[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncArray
- See also
Manual on
with
- def getAsyncAsOf(date: Date, n: Int)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of n rows as tuples matching molecule as of date.Get
Future
withList
of n rows as tuples matching molecule as of date.
Get data at a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getAsOf method.- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
asof
/since
- def getAsyncAsOf(date: Date)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of all rows as tuples matching molecule as of date.Get
Future
withList
of all rows as tuples matching molecule as of date.
Get data at a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getAsOf method.- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
asof
/since
- def getAsyncAsOf(tx: TxReport, n: Int)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of n rows as tuples matching molecule as of tx.Get
Future
withList
of n rows as tuples matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getAsOf method.- tx
TxReport (returned from all molecule transaction operations)
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
asof
/since
- def getAsyncAsOf(tx: TxReport)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of all rows as tuples matching molecule as of tx.Get
Future
withList
of all rows as tuples matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getAsOf method.- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
asof
/since
- def getAsyncAsOf(t: Long, n: Int)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of n rows as tuples matching molecule as of transaction timet
.Get
Future
withList
of n rows as tuples matching molecule as of transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction).
For more info and code examples see equivalent synchronous getAsOf method.- t
Long Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
asof
/since
- def getAsyncAsOf(t: Long)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of all rows as tuples matching molecule as of transaction timet
.Get
Future
withList
of all rows as tuples matching molecule as of transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction).
For more info and code examples see equivalent synchronous getAsOf method.- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
asof
/since
- def getAsyncHistory(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
with history of operations asList
on an attribute in the db.Get
Future
with history of operations asList
on an attribute in the db.
For more info and code examples see equivalent synchronous getHistory method.- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
manual for more info on generic attributes.
- def getAsyncIterable(implicit conn: Conn): Future[Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withIterable
of all rows as tuples matching the molecule.Get
Future
withIterable
of all rows as tuples matching the molecule.
Rows are lazily type-casted on each call to iterator.next().
For more info and code examples see equivalent synchronous getIterable method.- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is a tuple of types matching the attributes of the molecule
- Definition Classes
- GetAsyncIterable
- def getAsyncIterableAsOf(date: Date)(implicit conn: Conn): Future[Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withIterable
of all rows as tuples matching molecule as of date.Get
Future
withIterable
of all rows as tuples matching molecule as of date.
Get data at a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getIterableAsOf method.- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is tuple of data matching molecule
- Definition Classes
- GetAsyncIterable
- See also
Manual on
asof
/since
- def getAsyncIterableAsOf(tx: TxReport)(implicit conn: Conn): Future[Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withIterable
of all rows as tuples matching molecule as of tx.Get
Future
withIterable
of all rows as tuples matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getIterableAsOf method.- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is tuple of data matching molecule
- Definition Classes
- GetAsyncIterable
- See also
Manual on
asof
/since
- def getAsyncIterableAsOf(t: Long)(implicit conn: Conn): Future[Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withIterable
of all rows as tuples matching molecule as of transaction timet
.Get
Future
withIterable
of all rows as tuples matching molecule as of transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction).
CallgetIterableAsOf
for large result sets to maximize runtime performance. Data is lazily type-casted on each call tonext
on the iterator.
For more info and code examples see equivalent synchronous getIterableAsOf method.- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is tuple of data matching molecule
- Definition Classes
- GetAsyncIterable
- See also
Manual on
asof
/since
- def getAsyncIterableSince(date: Date)(implicit conn: Conn): Future[Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withIterable
of all rows as tuples matching molecule since date.Get
Future
withIterable
of all rows as tuples matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getIterableSince method.- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is tuple of data matching molecule
- Definition Classes
- GetAsyncIterable
- See also
Manual on
asof
/since
- def getAsyncIterableSince(tx: TxReport)(implicit conn: Conn): Future[Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withIterable
of all rows as tuples matching molecule since tx.Get
Future
withIterable
of all rows as tuples matching molecule since tx.
Datomic's internalsince
method can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getIterableSince method.- tx
- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is tuple of data matching molecule
- Definition Classes
- GetAsyncIterable
- See also
Manual on
asof
/since
- def getAsyncIterableSince(t: Long)(implicit conn: Conn): Future[Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withIterable
of all rows as tuples matching molecule since transaction timet
.Get
Future
withIterable
of all rows as tuples matching molecule since transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
CallgetIterableSince
for large result sets to maximize runtime performance. Data is lazily type-casted on each call tonext
on the iterator.
For more info and code examples see equivalent synchronous getIterableSince method.- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is tuple of data matching molecule
- Definition Classes
- GetAsyncIterable
- See also
Manual on
asof
/since
- def getAsyncIterableWith(txData: List[_])(implicit conn: Conn): Future[Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withIterable
of all rows as tuples matching molecule with applied raw transaction data.Get
Future
withIterable
of all rows as tuples matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db. *
* For more info and code examples see equivalent synchronous * getIterableWith method.- txData
Raw transaction data as java.util.List[Object]
- conn
Implicit Conn value in scope
- returns
Iterable of molecule data
- Definition Classes
- GetAsyncIterable
- See also
Manual on
with
- def getAsyncIterableWith(txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): Future[Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withIterable
of all rows as tuples matching molecule with applied molecule transaction data.Get
Future
withIterable
of all rows as tuples matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getIterableWith method.
Multiple transactions can be applied to test more complex what-if scenarios!- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
Iterable of molecule data
- Definition Classes
- GetAsyncIterable
- See also
Manual on
with
- def getAsyncJson(n: Int)(implicit conn: Conn): Future[String]
Get
Future
with json data for n rows matching molecule.Get
Future
with json data for n rows matching molecule.
Namespace.Attribute is used as json fields. Values are quoted when necessary. Nested data becomes json objects etc.
For more info and code examples see equivalent synchronous getJson method.- n
Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
- def getAsyncJson(implicit conn: Conn): Future[String]
Get
Future
with json data for all rows matching molecule.Get
Future
with json data for all rows matching molecule.
Namespace.Attribute is used as json fields. Values are quoted when necessary. Nested data becomes json objects etc.
For more info and code examples see equivalent synchronous getJson method.- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
- def getAsyncJsonAsOf(date: Date, n: Int)(implicit conn: Conn): Future[String]
Get
Future
with json data for n rows matching molecule as of tx.Get
Future
with json data for n rows matching molecule as of tx.
Get data at a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getJsonAsOf method.- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
asof
/since
- def getAsyncJsonAsOf(date: Date)(implicit conn: Conn): Future[String]
Get
Future
with json data for all rows matching molecule as of date.Get
Future
with json data for all rows matching molecule as of date.
Get data at a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getJsonAsOf method.- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
asof
/since
- def getAsyncJsonAsOf(tx: TxReport, n: Int)(implicit conn: Conn): Future[String]
Get
Future
with json data for n rows matching molecule as of tx.Get
Future
with json data for n rows matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getJsonAsOf method.- tx
TxReport (returned from all molecule transaction operations)
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
asof
/since
- def getAsyncJsonAsOf(tx: TxReport)(implicit conn: Conn): Future[String]
Get
Future
with json data for all rows matching molecule as of tx.Get
Future
with json data for all rows matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getJsonAsOf method.- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
asof
/since
- def getAsyncJsonAsOf(t: Long, n: Int)(implicit conn: Conn): Future[String]
Get
Future
with json data for n rows matching molecule as of transaction timet
.Get
Future
with json data for n rows matching molecule as of transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction).
For more info and code examples see equivalent synchronous getJsonAsOf method.- t
Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
asof
/since
- def getAsyncJsonAsOf(t: Long)(implicit conn: Conn): Future[String]
Get
Future
with json data for all rows matching molecule as of transaction timet
.Get
Future
with json data for all rows matching molecule as of transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction).
For more info and code examples see equivalent synchronous getJsonAsOf method.- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
asof
/since
- def getAsyncJsonSince(date: Date, n: Int)(implicit conn: Conn): Future[String]
Get
Future
with json data for n rows matching molecule since date.Get
Future
with json data for n rows matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getJsonSince method.- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
asof
/since
- def getAsyncJsonSince(date: Date)(implicit conn: Conn): Future[String]
Get
Future
with json data for all rows matching molecule since date.Get
Future
with json data for all rows matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getJsonSince method.- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
asof
/since
- def getAsyncJsonSince(tx: TxReport, n: Int)(implicit conn: Conn): Future[String]
Get
Future
with json data for n rows matching molecule since tx.Get
Future
with json data for n rows matching molecule since tx.
Datomic's internalsince
can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getJsonSince method.- tx
TxReport (returned from all molecule transaction operations)
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
asof
/since
- def getAsyncJsonSince(tx: TxReport)(implicit conn: Conn): Future[String]
Get
Future
with json data for all rows matching molecule since tx.Get
Future
with json data for all rows matching molecule since tx.
Datomic's internalsince
can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getJsonSince method.- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
asof
/since
- def getAsyncJsonSince(t: Long, n: Int)(implicit conn: Conn): Future[String]
Get
Future
with json data for n rows matching molecule since transaction timet
.Get
Future
with json data for n rows matching molecule since transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
For more info and code examples see equivalent synchronous getJsonSince method.- t
Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
asof
/since
- def getAsyncJsonSince(t: Long)(implicit conn: Conn): Future[String]
Get
Future
with json data for all rows matching molecule since transaction timet
.Get
Future
with json data for all rows matching molecule since transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
For more info and code examples see equivalent synchronous getJsonSince method.- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
asof
/since
- def getAsyncJsonWith(txData: List[_], n: Int)(implicit conn: Conn): Future[String]
Get
Future
with json data for n rows matching molecule with applied raw transaction data.Get
Future
with json data for n rows matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getJsonWith method.- txData
Raw transaction data as java.util.List[Object]
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
with
- def getAsyncJsonWith(txData: List[_])(implicit conn: Conn): Future[String]
Get
Future
with json data for all rows matching molecule with applied raw transaction data.Get
Future
with json data for all rows matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getJsonWith method.- txData
Raw transaction data as java.util.List[Object]
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
with
- def getAsyncJsonWith(n: Int, txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): Future[String]
Get
Future
with json data for all rows matching molecule with applied molecule transaction data.Get
Future
with json data for all rows matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getJsonWith method.
Multiple transactions can be applied to test more complex what-if scenarios!- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
with
- def getAsyncJsonWith(txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): Future[String]
Get
Future
with json data for all rows matching molecule with applied molecule transaction data.Get
Future
with json data for all rows matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getJsonWith method.
Multiple transactions can be applied to test more complex what-if scenarios!- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetAsyncJson
- See also
Manual on
with
- def getAsyncRaw(n: Int)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of n untyped rows matching molecule.Get
Future
withjava.util.Collection
of n untyped rows matching molecule.Person.name.age.getRaw(1).toString === """[["Ben" 42]]"""
For more info and code examples see equivalent synchronous getRaw method.- n
Number of rows
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- def getAsyncRaw(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of all untyped rows matching molecule.Get
Future
withjava.util.Collection
of all untyped rows matching molecule.Person.name.age.getRaw.toString === """`[["Ben" 42], ["Liz" 37]]"""
For more info and code examples see equivalent synchronous getRaw method.- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- def getAsyncRawAsOf(date: Date, n: Int)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of n untyped rows matching molecule as of date.Get
Future
withjava.util.Collection
of n untyped rows matching molecule as of date.
Call getRawAsOf when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Get data at a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getRawAsOf method.- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
asof
/since
- def getAsyncRawAsOf(date: Date)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of all untyped rows matching molecule as of date.Get
Future
withjava.util.Collection
of all untyped rows matching molecule as of date.
Call getRawAsOf when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Get data at a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getRawAsOf method.- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
asof
/since
- def getAsyncRawAsOf(tx: TxReport, n: Int)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of n untyped rows matching molecule as of tx.Get
Future
withjava.util.Collection
of n untyped rows matching molecule as of tx.
CallgetRawAsOf
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getRawAsOf method.- tx
TxReport (returned from all molecule transaction operations)
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
asof
/since
- def getAsyncRawAsOf(tx: TxReport)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of all untyped rows matching molecule as of tx.Get
Future
withjava.util.Collection
of all untyped rows matching molecule as of tx.Call
getRawAsOf
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getRawAsOf method.- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
asof
/since
- def getAsyncRawAsOf(t: Long, n: Int)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of n untyped rows matching molecule as of transaction timet
.Get
Future
withjava.util.Collection
of n untyped rows matching molecule as of transaction timet
.
CallgetRawAsOf
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction).
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction).
For more info and code examples see equivalent synchronous getRawAsOf method.- t
Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
asof
/since
- def getAsyncRawAsOf(t: Long)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of all untyped rows matching molecule as of transaction timet
.Get
Future
withjava.util.Collection
of all untyped rows matching molecule as of transaction timet
.
CallgetRawAsOf
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction).
For more info and code examples see equivalent synchronous getRawAsOf method.- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
asof
/since
- def getAsyncRawSince(date: Date, n: Int)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of n untyped rows matching molecule since date.Get
Future
withjava.util.Collection
of n untyped rows matching molecule since date.
CallgetRawSince
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Get data added/retracted since a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getRawSince method.- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
asof
/since
- def getAsyncRawSince(date: Date)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of all untyped rows matching molecule since date.Get
Future
withjava.util.Collection
of all untyped rows matching molecule since date.
CallgetRawSince
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Get data added/retracted since a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getRawSince method.- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
asof
/since
- def getAsyncRawSince(tx: TxReport, n: Int)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of n untyped rows matching molecule since tx.Get
Future
withjava.util.Collection
of n untyped rows matching molecule since tx.
CallgetRawSince
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Datomic's internalsince
method can take a transaction entity id as argument to retrieve a database value since that transaction (excluding).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getRawSince method.- tx
TxReport (returned from all molecule transaction operations)
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
asof
/since
- def getAsyncRawSince(tx: TxReport)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of all untyped rows matching molecule since tx.Get
Future
withjava.util.Collection
of all untyped rows matching molecule since tx.
CallgetRawSince
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Datomic's internalsince
method can take a transaction entity id as argument to retrieve a database value since that transaction (excluding).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getRawSince method.- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
asof
/since
- def getAsyncRawSince(t: Long, n: Int)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of n untyped rows matching molecule since transaction timet
.Get
Future
withjava.util.Collection
of n untyped rows matching molecule since transaction timet
.
CallgetRawSince
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved callingt
on the tx report returned from transactional operations and then be used to get data since that point in time (excluding that transaction).
For more info and code examples see equivalent synchronous getRawSince method.- t
Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
asof
/since
- def getAsyncRawSince(t: Long)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of all untyped rows matching molecule since transaction timet
.Get
Future
withjava.util.Collection
of all untyped rows matching molecule since transaction timet
.
CallgetRawSince
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved callingt
on the tx report returned from transactional operations and then be used to get data since that point in time (excluding that transaction).
For more info and code examples see equivalent synchronous getRawSince method.- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
asof
/since
- def getAsyncRawWith(txData: List[_], n: Int)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of n untyped rows matching molecule with applied raw transaction data.Get
Future
withjava.util.Collection
of n untyped rows matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getRawWith method.- txData
Raw transaction data as java.util.List[Object]
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
with
- def getAsyncRawWith(txData: List[_])(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of all untyped rows matching molecule with applied raw transaction data.Get
Future
withjava.util.Collection
of all untyped rows matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getRawWith method.- txData
Raw transaction data as java.util.List[Object]
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
with
- def getAsyncRawWith(n: Int, txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of n untyped rows matching molecule with applied molecule transaction data.Get
Future
withjava.util.Collection
of n untyped rows matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getRawWith method.
Multiple transactions can be applied to test more complex what-if scenarios!- n
Int Number of rows returned
- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- Note
Note how the
n
parameter has to come before thetxMolecules
vararg.- See also
Manual on
with
- def getAsyncRawWith(txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): Future[Collection[List[AnyRef]]]
Get
Future
withjava.util.Collection
of all untyped rows matching molecule with applied molecule transaction data.Get
Future
withjava.util.Collection
of all untyped rows matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getRawWith method.
Multiple transactions can be applied to test more complex what-if scenarios!- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetAsyncRaw
- See also
Manual on
with
- def getAsyncSince(date: Date, n: Int)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of n rows as tuples matching molecule since date.Get
Future
withList
of n rows as tuples matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getSince method.- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
asof
/since
- def getAsyncSince(date: Date)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of all rows as tuples matching molecule since date.Get
Future
withList
of all rows as tuples matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).
For more info and code examples see equivalent synchronous getSince method.- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
asof
/since
- def getAsyncSince(tx: TxReport, n: Int)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of n rows as tuples matching molecule since tx.Get
Future
withList
of n rows as tuples matching molecule since tx.
Datomic's internalsince
can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getSince method.- tx
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
asof
/since
- def getAsyncSince(tx: TxReport)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of all rows as tuples matching molecule since tx.Get
Future
withList
of all rows as tuples matching molecule since tx.
Datomic's internalsince
can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.
For more info and code examples see equivalent synchronous getSince method.- tx
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
asof
/since
- def getAsyncSince(t: Long, n: Int)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of n rows as tuples matching molecule since transaction timet
.Get
Future
withList
of n rows as tuples matching molecule since transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
For more info and code examples see equivalent synchronous getSince method.- t
Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
asof
/since
- def getAsyncSince(t: Long)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of all rows as tuples matching molecule since transaction timet
.Get
Future
withList
of all rows as tuples matching molecule since transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
For more info and code examples see equivalent synchronous getSince method.- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
asof
/since
- def getAsyncWith(txData: List[_], n: Int)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of n rows as tuples matching molecule with applied raw transaction data.Get
Future
withList
of n rows as tuples matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getWith method.- txData
Raw transaction data as java.util.List[Object]
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
with
- def getAsyncWith(txData: List[_])(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of all rows as tuples matching molecule with applied raw transaction data.Get
Future
withList
of all rows as tuples matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getWith method.- txData
Raw transaction data as java.util.List[Object]
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
with
- def getAsyncWith(n: Int, txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of n rows as tuples matching molecule with applied molecule transaction data.Get
Future
withList
of n rows as tuples matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getWith method.- n
Int Number of rows returned
- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- Note
Note how the
n
parameter has to come before thetxMolecules
vararg.- See also
Manual on
with
- def getAsyncWith(txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): Future[List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]]
Get
Future
withList
of all rows as tuples matching molecule with applied molecule transaction data.Get
Future
withList
of all rows as tuples matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db.
For more info and code examples see equivalent synchronous getWith method. Multiple transactions can be applied to test more complex what-if scenarios!- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetAsyncList
- See also
Manual on
with
- final def getClass(): Class[_ <: AnyRef]
- Definition Classes
- AnyRef → Any
- Annotations
- @native()
- def getHistory(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get history of operations as
List
on an attribute in the db.Get history of operations as
List
on an attribute in the db.
Generic datom attributes that can be called whengetHistory
is called:
e
- Entity id
a
- Attribute name
v
- Attribute value
ns
- Namespace name
tx
- TxReport
t
- Transaction time t
txInstant
- Transaction time as java.util.Date
op
- Operation: true (add) or false (retract)
Example:// Insert (t 1028) val List(ben, liz) = Person.name.age insert List( ("Ben", 42), ("Liz", 37), ) eids // Update (t 1031) Person(ben).age(43).update // Retract (t 1032) ben.retract // History of Ben Person(ben).age.t.op.getHistory.sortBy(r => (r._2, r._3)) === List( (42, 1028, true), // Insert: 42 asserted (42, 1031, false), // Update: 42 retracted (43, 1031, true), // 43 asserted (43, 1032, false) // Retract: 43 retracted )
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
manual for more info on generic attributes.
Equivalent asynchronous getAsyncHistory method.
- def getIterable(implicit conn: Conn): Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Iterable
of all rows as tuples matching the molecule.Get
Iterable
of all rows as tuples matching the molecule.
Rows are lazily type-casted on each call to iterator.next().Person.name.age.getIterable.toList === List( ("Ben", 42), ("Liz", 37), )
- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is a tuple of types matching the attributes of the molecule
- Definition Classes
- GetIterable
- See also
Equivalent asynchronous getAsyncIterable method.
- def getIterableAsOf(date: Date)(implicit conn: Conn): Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Iterable
of all rows as tuples matching molecule as of date.Get
Iterable
of all rows as tuples matching molecule as of date.
Get data at a human point in time (a java.util.Date).val beforeInsert = new java.util.Date // Insert val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) val List(ben, liz) = tx1.eids val afterInsert = new java.util.Date // Update val tx2 = Person(ben).age(43).update val afterUpdate = new java.util.Date // Retract val tx3 = ben.retract val afterRetract = new java.util.Date // Get Iterable of all rows as of beforeInsert val iterable0: Iterable[(String, Int)] = Person.name.age.getIterableAsOf(beforeInsert) val iterator0: Iterator[(String, Int)] = iterable0.iterator iterator0.hasNext === false // Nothing yet // Get Iterable of all rows as of afterInsert val iterable1: Iterable[(String, Int)] = Person.name.age.getIterableAsOf(afterInsert) val iterator1: Iterator[(String, Int)] = iterable1.iterator // Type casting lazily performed with each call to `next` iterator1.next === ("Ben", 42) iterator1.next === ("Liz", 37) // Get Iterable of all rows as of afterUpdate val iterable2: Iterable[(String, Int)] = Person.name.age.getIterableAsOf(afterUpdate) val iterator2: Iterator[(String, Int)] = iterable2.iterator // Type casting lazily performed with each call to `next` iterator2.next === ("Ben", 43) // Ben now 43 iterator2.next === ("Liz", 37) // Get Iterable of all rows as of afterRetract val iterable3: Iterable[(String, Int)] = Person.name.age.getIterableAsOf(afterRetract) val iterator3: Iterator[(String, Int)] = iterable3.iterator // Type casting lazily performed with each call to `next` iterator3.next === ("Liz", 37) iterator3.hasNext === false // Ben gone
- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is tuple of data matching molecule
- Definition Classes
- GetIterable
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncIterableAsOf method.
- def getIterableAsOf(tx: TxReport)(implicit conn: Conn): Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Iterable
of all rows as tuples matching molecule as of tx.Get
Iterable
of all rows as tuples matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we getAsync a TxReport from transaction operations likeget
,update
,retract
etc.// Insert (tx report 1) val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) val List(ben, liz) = tx1.eids // Update (tx report 2) val tx2 = Person(ben).age(43).update // Retract (tx report 3) val tx3 = ben.retract // Get Iterable of all rows as of tx1 (after insert) val iterable1: Iterable[(String, Int)] = Person.name.age.getIterableAsOf(tx1) val iterator1: Iterator[(String, Int)] = iterable1.iterator // Type casting lazily performed with each call to `next` iterator1.next === ("Ben", 42) iterator1.next === ("Liz", 37) // Get Iterable of all rows as of tx2 (after update) val iterable2: Iterable[(String, Int)] = Person.name.age.getIterableAsOf(tx2) val iterator2: Iterator[(String, Int)] = iterable2.iterator // Type casting lazily performed with each call to `next` iterator2.next === ("Ben", 43) // Ben now 43 iterator2.next === ("Liz", 37) // Get Iterable of all rows as of tx3 (after retract) val iterable3: Iterable[(String, Int)] = Person.name.age.getIterableAsOf(tx3) val iterator3: Iterator[(String, Int)] = iterable3.iterator // Type casting lazily performed with each call to `next` iterator3.next === ("Liz", 37) iterator3.hasNext === false // Ben gone
- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is tuple of data matching molecule
- Definition Classes
- GetIterable
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncIterableAsOf method.
- def getIterableAsOf(t: Long)(implicit conn: Conn): Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Iterable
of all rows as tuples matching molecule as of transaction timet
.Get
Iterable
of all rows as tuples matching molecule as of transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
CallgetIterableAsOf
for large result sets to maximize runtime performance. Data is lazily type-casted on each call tonext
on the iterator.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction):// Insert (t 1028) val List(ben, liz) = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) eids // Update (t 1031) Person(ben).age(43).update // Retract (t 1032) ben.retract // History of Ben Person(ben).age.t.op.getHistory.sortBy(r => (r._2, r._3)) === List( (42, 1028, true), // Insert: 42 asserted (42, 1031, false), // Update: 42 retracted (43, 1031, true), // 43 asserted (43, 1032, false) // Retract: 43 retracted ) // Get Iterable of all rows as of transaction t 1028 (after insert) val iterable1: Iterable[(String, Int)] = Person.name.age.getIterableAsOf(1028) val iterator1: Iterator[(String, Int)] = iterable1.iterator // Type casting lazily performed with each call to `next` iterator1.next === ("Liz", 37) iterator1.next === ("Ben", 42) // Get Iterable of all rows as of transaction t 1031 (after update) val iterable2: Iterable[(String, Int)] = Person.name.age.getIterableAsOf(1031) val iterator2: Iterator[(String, Int)] = iterable2.iterator // Type casting lazily performed with each call to `next` iterator2.next === ("Liz", 37) iterator2.next === ("Ben", 43) // Ben now 43 // Get Iterable of all rows as of transaction t 1032 (after retract) val iterable3: Iterable[(String, Int)] = Person.name.age.getIterableAsOf(1032) val iterator3: Iterator[(String, Int)] = iterable3.iterator // Type casting lazily performed with each call to `next` iterator3.next === ("Liz", 37) iterator3.hasNext === false // Ben gone
- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is tuple of data matching molecule
- Definition Classes
- GetIterable
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncIterableAsOf method.
- def getIterableSince(date: Date)(implicit conn: Conn): Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Iterable
of all rows as tuples matching molecule since date.Get
Iterable
of all rows as tuples matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).// Transact 3 times (`inst` retrieves transaction time from tx report) val date1 = Person.name("Ann").save.inst val date2 = Person.name("Ben").save.inst val date3 = Person.name("Cay").save.inst // Current values Person.name.getIterable.iterator.toList === List("Ann", "Ben", "Cay") // Ben and Cay added since date1 Person.name.getIterableSince(date1).iterator.toList === List("Ben", "Cay") // Cay added since date2 Person.name.getIterableSince(date2).iterator.toList === List("Cay") // Nothing added since date3 Person.name.getIterableSince(date3).iterator.toList === Nil
- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is tuple of data matching molecule
- Definition Classes
- GetIterable
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncIterableSince method.
- def getIterableSince(tx: TxReport)(implicit conn: Conn): Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Iterable
of all rows as tuples matching molecule since tx.Get
Iterable
of all rows as tuples matching molecule since tx.
Datomic's internalsince
method can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we getAsync a TxReport from transaction operations likeget
,update
,retract
etc.// Get tx reports for 3 transactions val tx1 = Person.name("Ann").save val tx2 = Person.name("Ben").save val tx3 = Person.name("Cay").save // Current values Person.name.getIterable.iterator.toList === List("Ann", "Ben", "Cay") // Ben and Cay added since tx1 Person.name.getIterableSince(tx1).iterator.toList === List("Ben", "Cay") // Cay added since tx2 Person.name.getIterableSince(tx2).iterator.toList === List("Cay") // Nothing added since tx3 Person.name.getIterableSince(tx3).iterator.toList === Nil
- tx
- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is tuple of data matching molecule
- Definition Classes
- GetIterable
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncIterableSince method.
- def getIterableSince(t: Long)(implicit conn: Conn): Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Iterable
of all rows as tuples matching molecule since transaction timet
.Get
Iterable
of all rows as tuples matching molecule since transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
CallgetIterableSince
for large result sets to maximize runtime performance. Data is lazily type-casted on each call tonext
on the iterator.
t
can for instance be retrieved callingt
on the tx report returned from transactional operations and then be used to get data since that point in time (excluding that transaction):// 3 transaction times `t` val t1 = Person.name("Ann").save.t val t2 = Person.name("Ben").save.t val t3 = Person.name("Cay").save.t // Current values as Iterable Person.name.getIterable.iterator.toList === List("Ann", "Ben", "Cay") // Ben and Cay added since transaction time t1 Person.name.getIterableSince(t1).iterator.toList === List("Ben", "Cay") // Cay added since transaction time t2 Person.name.getIterableSince(t2).iterator.toList === List("Cay") // Nothing added since transaction time t3 Person.name.getIterableSince(t3).iterator.toList === Nil
- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
Iterable[Tpl] where Tpl is tuple of data matching molecule
- Definition Classes
- GetIterable
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncIterableSince method.
- def getIterableWith(txData: List[_])(implicit conn: Conn): Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Iterable
of all rows as tuples matching molecule with applied raw transaction data.Get
Iterable
of all rows as tuples matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db to see how it would then look:// Live size of Person db Person.name.get.size === 150 // Read some transaction data from file val data_rdr2 = new FileReader("examples/resources/seattle/seattle-data1a.dtm") val newDataTx = Util.readAll(data_rdr2).get(0).asInstanceOf[java.util.List[Object]] // Imagine future db - 100 persons would be added, apparently Person.name.getIterableWith(newDataTx).size === 250
- txData
Raw transaction data as java.util.List[Object]
- conn
Implicit Conn value in scope
- returns
Iterable of molecule data
- Definition Classes
- GetIterable
- See also
Manual on
with
Equivalent asynchronous getAsyncIterableWith method.
- def getIterableWith(txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): Iterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
Iterable
of all rows as tuples matching molecule with applied molecule transaction data.Get
Iterable
of all rows as tuples matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db to see how it would then look:// Current state val ben = Person.name("Ben").likes("pasta").save.eid // Base data Person.name.likes.getIterableWith( // apply imaginary transaction data Person(ben).likes("sushi").getUpdateTx ).iterator.toList === List( // Effect: Ben would like sushi if tx was applied ("Ben", "sushi") ) // Current state is still the same Person.name.likes.get === List( ("Ben", "pasta") )
Multiple transactions can be applied to test more complex what-if scenarios!
- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
Iterable of molecule data
- Definition Classes
- GetIterable
- See also
Manual on
with
Equivalent asynchronous getAsyncIterableWith method.
- def getJson(n: Int)(implicit conn: Conn): String
Get json data for n rows matching molecule
Get json data for n rows matching molecule
Person.name.age.getJson(1) === """[ |{"person.name": "Ben", "person.age": 42} |]""".stripMargin
Namespace.Attribute is used as json fields. Values are quoted when necessary. Nested data becomes json objects etc.
- n
Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Equivalent asynchronous getAsyncJson method.
- def getJson(implicit conn: Conn): String
Get json data for all rows matching molecule.
Get json data for all rows matching molecule.
Person.name.age.getJson === """[ |{"person.name": "Ben", "person.age": 42}, |{"person.name": "Liz", "person.age": 37} |]""".stripMargin
Namespace.Attribute is used as json fields. Values are quoted when necessary. Nested data becomes json objects etc.
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Equivalent asynchronous getAsyncJson method.
- def getJsonAsOf(date: Date, n: Int)(implicit conn: Conn): String
Get json data for n rows matching molecule as of tx.
Get json data for n rows matching molecule as of tx.
Get data at a human point in time (a java.util.Date).val beforeInsert = new java.util.Date // Insert val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) val List(ben, liz) = tx1.eids val afterInsert = new java.util.Date // Update val tx2 = Person(ben).age(43).update val afterUpdate = new java.util.Date // Get List of all rows as of afterUpdate Person.name.age.getJsonAsOf(afterUpdate) === """[ |{"person.name": "Ben", "person.age": 43}, |{"person.name": "Liz", "person.age": 37} |]""".stripMargin // Get List of n rows as of afterUpdate Person.name.age.getJsonAsOf(afterUpdate, 1) === """[ |{"person.name": "Ben", "person.age": 43} |]""".stripMargin
- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncJsonAsOf method.
- def getJsonAsOf(date: Date)(implicit conn: Conn): String
Get json data for all rows matching molecule as of date.
Get json data for all rows matching molecule as of date.
Get data at a human point in time (a java.util.Date).val beforeInsert = new java.util.Date // Insert val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37), ) val List(ben, liz) = tx1.eids val afterInsert = new java.util.Date // Update val tx2 = Person(ben).age(43).update val afterUpdate = new java.util.Date // Retract val tx3 = ben.retract val afterRetract = new java.util.Date // No data yet before insert Person.name.age.getJsonAsOf(beforeInsert) === "" // Get List of all rows as of afterInsert Person.name.age.getJsonAsOf(afterInsert) === """[ |{"person.name": "Ben", "person.age": 42}, |{"person.name": "Liz", "person.age": 37} |]""".stripMargin // Get List of all rows as of afterUpdate Person.name.age.getJsonAsOf(afterUpdate) === """[ |{"person.name": "Ben", "person.age": 43}, |{"person.name": "Liz", "person.age": 37} |]""".stripMargin // Get List of all rows as of afterRetract Person.name.age.getJsonAsOf(afterRetract) === """[ |{"person.name": "Liz", "person.age": 37} |]""".stripMargin
- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncJsonAsOf method.
- def getJsonAsOf(tx: TxReport, n: Int)(implicit conn: Conn): String
Get json data for n rows matching molecule as of tx.
Get json data for n rows matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.// Insert (tx report 1) val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) val List(ben, liz) = tx1.eids // Update (tx report 2) val tx2 = Person(ben).age(43).update // Get json for all rows as of transaction tx2 (after update) - Ben now 43 Person.name.age.getJsonAsOf(tx2) === """[ |{"person.name": "Ben", "person.age": 43}, |{"person.name": "Liz", "person.age": 37} |]""".stripMargin // Get json for n rows as of transaction tx2 (after update) - Ben now 43 Person.name.age.getJsonAsOf(tx2, 1) === """[ |{"person.name": "Ben", "person.age": 43} |]""".stripMargin
- tx
TxReport (returned from all molecule transaction operations)
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncJsonAsOf method.
- def getJsonAsOf(tx: TxReport)(implicit conn: Conn): String
Get json data for all rows matching molecule as of tx.
Get json data for all rows matching molecule as of tx.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we get a TxReport from transaction operations likeget
,update
,retract
etc.// Insert (tx report 1) val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) val List(ben, liz) = tx1.eids // Update (tx report 2) val tx2 = Person(ben).age(43).update // Retract (tx report 3) val tx3 = ben.retract // Get json for all rows as of transaction tx1 (after insert) Person.name.age.getJsonAsOf(tx1) === """[ |{"person.name": "Ben", "person.age": 42}, |{"person.name": "Liz", "person.age": 37} |]""".stripMargin // Get json for all rows as of transaction tx2 (after update) - Ben now 43 Person.name.age.getJsonAsOf(tx2) === """[ |{"person.name": "Ben", "person.age": 43}, |{"person.name": "Liz", "person.age": 37} |]""".stripMargin // Get json for all rows as of transaction tx3 (after retract) - Ben gone Person.name.age.getJsonAsOf(tx3) === """[ |{"person.name": "Liz", "person.age": 37} |]""".stripMargin
- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncJsonAsOf method.
- def getJsonAsOf(t: Long, n: Int)(implicit conn: Conn): String
Get json data for n rows matching molecule as of transaction time
t
.Get json data for n rows matching molecule as of transaction time
t
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction):// Insert (t 1028) val List(ben, liz) = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) eids // Update (t 1031) Person(ben).age(43).update // History of Ben Person(ben).age.t.op.getHistory.sortBy(r => (r._2, r._3)) === List( (42, 1028, true), // Insert: 42 asserted (42, 1031, false), // Update: 42 retracted (43, 1031, true), // 43 asserted ) // Get json for all rows as of transaction t 1031 (after update) Person.name.age.getJsonAsOf(1031) === """[ |{"person.name": "Ben", "person.age": 43}, |{"person.name": "Liz", "person.age": 37} |]""".stripMargin // Get json for n (1) rows as of transaction t 1031 (after update) Person.name.age.getJsonAsOf(1031, 1) === """[ |{"person.name": "Ben", "person.age": 43} |]""".stripMargin
- t
Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncJsonAsOf method.
- def getJsonAsOf(t: Long)(implicit conn: Conn): String
Get json data for all rows matching molecule as of transaction time
t
.Get json data for all rows matching molecule as of transaction time
t
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction):// Insert (t 1028) val List(ben, liz) = Person.name.age insert List( ("Ben", 42), ("Liz", 37) ) eids // Update (t 1031) Person(ben).age(43).update // Retract (t 1032) ben.retract // History of Ben Person(ben).age.t.op.getHistory.sortBy(r => (r._2, r._3)) === List( (42, 1028, true), // Insert: 42 asserted (42, 1031, false), // Update: 42 retracted (43, 1031, true), // 43 asserted (43, 1032, false) // Retract: 43 retracted ) // Get json for all rows as of transaction t 1028 (after insert) Person.name.age.getJsonAsOf(1028) === """[ |{"person.name": "Ben", "person.age": 42}, |{"person.name": "Liz", "person.age": 37} |]""".stripMargin // Get json for all rows as of transaction t 1031 (after update) - Ben now 43 Person.name.age.getJsonAsOf(1031) === """[ |{"person.name": "Ben", "person.age": 43}, |{"person.name": "Liz", "person.age": 37} |]""".stripMargin // Get json for all rows as of transaction t 1032 (after retract) - Ben gone Person.name.age.getJsonAsOf(1032) === """[ |{"person.name": "Liz", "person.age": 37} |]""".stripMargin
- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncJsonAsOf method.
- def getJsonComposite(conn: Conn, n: Int): String
- Attributes
- protected
- Definition Classes
- GetJson
- def getJsonFlat(conn: Conn, n: Int): String
- Attributes
- protected
- Definition Classes
- GetJson
- def getJsonSince(date: Date, n: Int)(implicit conn: Conn): String
Get json data for n rows matching molecule since date.
Get json data for n rows matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).// Transact 3 times (`inst` retrieves transaction time/Date from tx report) val date1 = Person.name("Ann").save.inst val date2 = Person.name("Ben").save.inst val date3 = Person.name("Cay").save.inst // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since date1 Person.name.getJsonSince(date1) === """[ |{"person.name": "Ben"}, |{"person.name": "Cay"} |]""".stripMargin // Ben and Cay added since date1 - only n (1) rows returned Person.name.getJsonSince(date1, 1) === """[ |{"person.name": "Ben"} |]""".stripMargin
- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncJsonSince method.
- def getJsonSince(date: Date)(implicit conn: Conn): String
Get json data for all rows matching molecule since date.
Get json data for all rows matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).// Transact 3 times (`inst` retrieves transaction time/Date from tx report) val date1 = Person.name("Ann").save.inst val date2 = Person.name("Ben").save.inst val date3 = Person.name("Cay").save.inst // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since date1 Person.name.getJsonSince(date1) === """[ |{"person.name": "Ben"}, |{"person.name": "Cay"} |]""".stripMargin // Cay added since date2 Person.name.getJsonSince(date2) === """[ |{"person.name": "Cay"} |]""".stripMargin // Nothing added since date3 Person.name.getJsonSince(date3) === ""
- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncJsonSince method.
- def getJsonSince(tx: TxReport, n: Int)(implicit conn: Conn): String
Get json data for n rows matching molecule since tx.
Get json data for n rows matching molecule since tx.
Datomic's internalsince
can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we getAsync a TxReport from transaction operations likeget
,update
,retract
etc.// Get tx reports for 3 transactions val tx1 = Person.name("Ann").save val tx2 = Person.name("Ben").save val tx3 = Person.name("Cay").save // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since tx1 Person.name.getJsonSince(tx1) === """[ |{"person.name": "Ben"}, |{"person.name": "Cay"} |]""".stripMargin // Ben and Cay added since tx1 - only n (1) rows returned Person.name.getJsonSince(tx1, 1) === """[ |{"person.name": "Ben"} |]""".stripMargin
- tx
TxReport (returned from all molecule transaction operations)
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncJsonSince method.
- def getJsonSince(tx: TxReport)(implicit conn: Conn): String
Get json data for all rows matching molecule since tx.
Get json data for all rows matching molecule since tx.
Datomic's internalsince
can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we getAsync a TxReport from transaction operations likeget
,update
,retract
etc.// Get tx reports for 3 transactions val tx1 = Person.name("Ann").save val tx2 = Person.name("Ben").save val tx3 = Person.name("Cay").save // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since tx1 Person.name.getJsonSince(tx1) === """[ |{"person.name": "Ben"}, |{"person.name": "Cay"} |]""".stripMargin // Cay added since tx2 Person.name.getJsonSince(tx2) === """[ |{"person.name": "Cay"} |]""".stripMargin // Nothing added since tx3 Person.name.getJsonSince(tx3) === ""
- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncJsonSince method.
- def getJsonSince(t: Long, n: Int)(implicit conn: Conn): String
Get json data for n rows matching molecule since transaction time
t
.Get json data for n rows matching molecule since transaction time
t
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved by callingt
on the tx report returned from transactional operations and then be used to get data since that point in time (excluding that transaction):// 3 transaction times `t` val t1 = Person.name("Ann").save.t val t2 = Person.name("Ben").save.t val t3 = Person.name("Cay").save.t // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since transaction time t 1028 Person.name.getJsonSince(t1) === """[ |{"person.name": "Ben"}, |{"person.name": "Cay"} |]""".stripMargin // Ben and Cay added since transaction time t 1028 - only n (1) rows returned Person.name.getJsonSince(t1, 1) === """[ |{"person.name": "Ben"} |]""".stripMargin
- t
Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncJsonSince method.
- def getJsonSince(t: Long)(implicit conn: Conn): String
Get json data for all rows matching molecule since transaction time
t
.Get json data for all rows matching molecule since transaction time
t
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved by callingt
on the tx report returned from transactional operations and then be used to get data since that point in time (excluding that transaction):// 3 transaction times `t` val t1 = Person.name("Ann").save.t val t2 = Person.name("Ben").save.t val t3 = Person.name("Cay").save.t // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since transaction time t 1028 Person.name.getJsonSince(t1) === """[ |{"person.name": "Ben"}, |{"person.name": "Cay"} |]""".stripMargin // Cay added since transaction time t 1030 Person.name.getJsonSince(t2) === """[ |{"person.name": "Cay"} |]""".stripMargin // Nothing added since transaction time t 1032 Person.name.getJsonSince(t3) === ""
- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncJsonSince method.
- def getJsonWith(txData: List[_], n: Int)(implicit conn: Conn): String
Get json data for n rows matching molecule with applied raw transaction data.
Get json data for n rows matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db to see how it would then look:// Live size of Person db Person.name.get.size === 150 // Read some transaction data from file val data_rdr2 = new FileReader("examples/resources/seattle/seattle-data1a.dtm") val newDataTx = Util.readAll(data_rdr2).get(0).asInstanceOf[java.util.List[Object]] // Imagine future db - 100 persons would be added, apparently Person.name.getJsonWith(newDataTx).size === 250 // Imagine future db - Let's just take 10 Person.name.getJsonWith(newDataTx, 10).size === 10
- txData
Raw transaction data as java.util.List[Object]
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
with
Equivalent asynchronous getAsyncJsonWith method.
- def getJsonWith(txData: List[_])(implicit conn: Conn): String
Get json data for all rows matching molecule with applied raw transaction data.
Get json data for all rows matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db to see how it would then look:// Live size of Person db Person.name.get.size === 150 // Read some transaction data from file val data_rdr2 = new FileReader("examples/resources/seattle/seattle-data1a.dtm") val newDataTx = Util.readAll(data_rdr2).get(0).asInstanceOf[java.util.List[Object]] // Imagine future db - 100 persons would be added, apparently Person.name.getJsonWith(newDataTx).size === 250
- txData
Raw transaction data as java.util.List[Object]
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
with
Equivalent asynchronous getAsyncJsonWith method.
- def getJsonWith(n: Int, txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): String
Get json data for all rows matching molecule with applied molecule transaction data.
Get json data for all rows matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db to see how it would then look:// Current state val List(ben, liz) = Person.name.likes.insert( ("Ben", "pasta"), ("Liz", "pizza") ).eids // Test multiple transactions Person.name.likes.getJsonWith( Person(ben).likes("sushi").getUpdateTx, Person(liz).likes("cake").getUpdateTx ) === """[ |{"person.name": "Ben", "person.likes": "sushi"}, |{"person.name": "Liz", "person.likes": "cake"} |]""".stripMargin // Same as above, but only n (1) rows returned: Person.name.likes.getJsonWith( 1 Person(ben).likes("sushi").getUpdateTx, Person(liz).likes("cake").getUpdateTx ) === """[ |{"person.name": "Ben", "person.likes": "sushi"} |]""".stripMargin
Multiple transactions can be applied to test more complex what-if scenarios!
- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
with
Equivalent asynchronous getAsyncJsonWith method.
- def getJsonWith(txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): String
Get json data for all rows matching molecule with applied molecule transaction data.
Get json data for all rows matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db to see how it would then look:// Current state val ben = Person.name("Ben").likes("pasta").save.eid // Base data Person.name.likes.getJsonWith( // apply imaginary transaction data Person(ben).likes("sushi").getUpdateTx ) === """[ |{"person.name": "Ben", "person.likes": "sushi"} |]""".stripMargin // Current state is still the same Person.name.likes.get === List(("Ben", "pasta"))
Multiple transactions can be applied to test more complex what-if scenarios!
- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
String of json
- Definition Classes
- GetJson
- See also
Manual on
with
Equivalent asynchronous getAsyncJsonWith method.
- def getListOf[T](implicit conn: Conn): List[T]
- Definition Classes
- GetList
- def getRaw(n: Int)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of n untyped rows matching molecule.Get
java.util.Collection
of n untyped rows matching molecule.Person.name.age.getRaw(1).toString === """[["Ben" 42]]"""
- n
Number of rows
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Equivalent asynchronous getAsyncRaw method.
- def getRaw(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of all untyped rows matching molecule.Get
java.util.Collection
of all untyped rows matching molecule.Person.name.age.getRaw.toString === """[["Ben" 42], ["Liz" 37]]"""
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Equivalent asynchronous getAsyncRaw method.
- def getRawAsOf(date: Date, n: Int)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of n untyped rows matching molecule as of date.Get
java.util.Collection
of n untyped rows matching molecule as of date.
Call getRawAsOf when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Get data at a human point in time (a java.util.Date).val beforeInsert = new java.util.Date // Insert val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37), ) val ben = tx1.eid val afterInsert = new java.util.Date // Update val tx2 = Person(ben).age(43).update val afterUpdate = new java.util.Date // Retract val tx3 = ben.retract val afterRetract = new java.util.Date // Get all rows of raw data as of beforeInsert Person.name.age.getRawAsOf(beforeInsert).toString === """[]""" // Get all rows of raw data as of afterInsert Person.name.age.getRawAsOf(afterInsert).toString === """[["Liz" 37], ["Ben" 42]]""" // Get n (1) rows of raw data as of afterInsert Person.name.age.getRawAsOf(afterInsert, 1).toString === """[["Liz" 37]]"""
- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncRawAsOf method.
- def getRawAsOf(date: Date)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of all untyped rows matching molecule as of date.Get
java.util.Collection
of all untyped rows matching molecule as of date.
Call getRawAsOf when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Get data at a human point in time (a java.util.Date).val beforeInsert = new java.util.Date // Insert val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37), ) val ben = tx1.eid val afterInsert = new java.util.Date // Update val tx2 = Person(ben).age(43).update val afterUpdate = new java.util.Date // Retract val tx3 = ben.retract val afterRetract = new java.util.Date // Get raw data as of beforeInsert Person.name.age.getRawAsOf(beforeInsert).toString === """[]""" // Get raw data as of afterInsert Person.name.age.getRawAsOf(afterInsert).toString === """[["Liz" 37], ["Ben" 42]]""" // Get raw data as of afterUpdate Person.name.age.getRawAsOf(afterUpdate).toString === """[["Liz" 37], ["Ben" 43]]""" // Ben now 43 // Get raw data as of afterRetract Person.name.age.getRawAsOf(afterRetract).toString === """[["Liz" 37]]""" // Ben gone
- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncRawAsOf method.
- def getRawAsOf(tx: TxReport, n: Int)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of n untyped rows matching molecule as of tx.Get
java.util.Collection
of n untyped rows matching molecule as of tx.
The Array is only populated with n rows of type-casted tuples. CallgetRawAsOf
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we getAsync a TxReport from transaction operations likeget
,update
,retract
etc.// Insert (tx report 1) val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37), ) val ben = tx1.eid // Update (tx report 2) val tx2 = Person(ben).age(43).update // Retract (tx report 3) val tx3 = ben.retract // Get all rows of raw data as of tx1 (after insert) Person.name.age.getRawAsOf(tx1).toString === """[["Liz" 37], ["Ben" 42]]""" // Get n (1) rows of raw data as of tx1 (after insert) Person.name.age.getRawAsOf(tx1, 1).toString === """[["Liz" 37]]"""
- tx
TxReport (returned from all molecule transaction operations)
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncRawAsOf method.
- def getRawAsOf(tx: TxReport)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of all untyped rows matching molecule as of tx.Get
java.util.Collection
of all untyped rows matching molecule as of tx.Call
getRawAsOf
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Datomic's internalasOf
method can take a transaction entity id as argument to retrieve a database value as of that transaction (including).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we getAsync a TxReport from transaction operations likeget
,update
,retract
etc.// Insert (tx report 1) val tx1 = Person.name.age insert List( ("Ben", 42), ("Liz", 37), ) val ben = tx1.eid // Update (tx report 2) val tx2 = Person(ben).age(43).update // Retract (tx report 3) val tx3 = ben.retract // Get raw data as of tx1 (after insert) Person.name.age.getRawAsOf(tx1).toString === """[["Liz" 37], ["Ben" 42]]""" // Get raw data as of tx2 (after update) Person.name.age.getRawAsOf(tx2).toString === """[["Liz" 37], ["Ben" 43]]""" // Ben now 43 // Get raw data as of tx3 (after retract) Person.name.age.getRawAsOf(tx3).toString === """[["Liz" 37]]""" // Ben gone
- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncRawAsOf method.
- def getRawAsOf(t: Long, n: Int)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of n untyped rows matching molecule as of transaction timet
.Get
java.util.Collection
of n untyped rows matching molecule as of transaction timet
.
CallgetRawAsOf
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction):// Insert (t 1028) val List(ben, liz) = Person.name.age insert List( ("Ben", 42), ("Liz", 37), ) eids // Update (t 1031) Person(ben).age(43).update // History of Ben Person(ben).age.t.op.getHistory.sortBy(r => (r._2, r._3)) === List( (42, 1028, true), // Insert: 42 asserted (42, 1031, false), // Update: 42 retracted (43, 1031, true), // 43 asserted ) // Get all rows of raw data as of transaction t 1031 (after update) Person.name.age.getRawAsOf(1028).toString === """[["Ben" 43], ["Liz" 37]]""" // Get n (1) rows of raw data as of transaction t 1031 (after update) Person.name.age.getRawAsOf(1031, 1).toString === """[["Ben" 43]]"""
- t
Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncRawAsOf method.
- def getRawAsOf(t: Long)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of all untyped rows matching molecule as of transaction timet
.Get
java.util.Collection
of all untyped rows matching molecule as of transaction timet
.
CallgetRawAsOf
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved in a getHistory call for an attribute and then be used to get data as of that point in time (including that transaction):// Insert (t 1028) val List(ben, liz) = Person.name.age insert List( ("Ben", 42), ("Liz", 37), ) eids // Update (t 1031) Person(ben).age(43).update // Retract (t 1032) ben.retract // History of Ben Person(ben).age.t.op.getHistory.sortBy(r => (r._2, r._3)) === List( (42, 1028, true), // Insert: 42 asserted (42, 1031, false), // Update: 42 retracted (43, 1031, true), // 43 asserted (43, 1032, false) // Retract: 43 retracted ) // Get raw data as of transaction t 1028 (after insert) Person.name.age.getRawAsOf(1028).toString === """[["Ben" 42], ["Liz" 37]]""" // Get raw data as of transaction t 1031 (after update) Person.name.age.getRawAsOf(1031).toString === """[["Ben" 43], ["Liz" 37]]""" // Ben now 43 // Get raw data as of transaction t 1032 (after retract) Person.name.age.getRawAsOf(1032).toString === """[["Liz" 37]]""" // Ben gone
- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncRawAsOf method.
- def getRawSince(date: Date, n: Int)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of n untyped rows matching molecule since date.Get
java.util.Collection
of n untyped rows matching molecule since date.
CallgetRawSince
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Get data added/retracted since a human point in time (a java.util.Date).// Transact 3 times (`inst` retrieves transaction time from tx report) val date1 = Person.name("Ann").save.inst val date2 = Person.name("Ben").save.inst val date3 = Person.name("Cay").save.inst // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since date1 Person.name.getRawSince(date1).toString === """[["Ben"], ["Cay"]]""" // Ben and Cay added since date1 - only n (1) rows returned Person.name.getRawSince(date1, 1).toString === """[["Ben"]]"""
- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncRawSince method.
- def getRawSince(date: Date)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of all untyped rows matching molecule since date.Get
java.util.Collection
of all untyped rows matching molecule since date.
CallgetRawSince
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Get data added/retracted since a human point in time (a java.util.Date).// Transact 3 times (`inst` retrieves transaction time from tx report) val date1 = Person.name("Ann").save.inst val date2 = Person.name("Ben").save.inst val date3 = Person.name("Cay").save.inst // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since date1 Person.name.getRawSince(date1).toString === """[["Ben"], ["Cay"]]""" // Cay added since date2 Person.name.getRawSince(date2).toString === """[["Cay"]]""" // Nothing added since date3 Person.name.getRawSince(date3).toString === """[]"""
- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncRawSince method.
- def getRawSince(tx: TxReport, n: Int)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of n untyped rows matching molecule since tx.Get
java.util.Collection
of n untyped rows matching molecule since tx.
CallgetRawSince
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Datomic's internalsince
method can take a transaction entity id as argument to retrieve a database value since that transaction (excluding).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we getAsync a TxReport from transaction operations likeget
,update
,retract
etc.// Get tx reports for 3 transactions val tx1 = Person.name("Ann").save val tx2 = Person.name("Ben").save val tx3 = Person.name("Cay").save // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since tx1 Person.name.getRawSince(tx1).toString === """[["Ben"], ["Cay"]]""" // Ben and Cay added since tx1 - only n (1) rows returned Person.name.getRawSince(tx1, 1).toString === """[["Ben"]]"""
- tx
TxReport (returned from all molecule transaction operations)
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncRawSince method.
- def getRawSince(tx: TxReport)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of all untyped rows matching molecule since tx.Get
java.util.Collection
of all untyped rows matching molecule since tx.
CallgetRawSince
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Datomic's internalsince
method can take a transaction entity id as argument to retrieve a database value since that transaction (excluding).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we getAsync a TxReport from transaction operations likeget
,update
,retract
etc.// Get tx reports for 3 transactions val tx1 = Person.name("Ann").save val tx2 = Person.name("Ben").save val tx3 = Person.name("Cay").save // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since tx1 Person.name.getRawSince(tx1).toString === """[["Ben"], ["Cay"]]""" // Cay added since tx2 Person.name.getRawSince(tx2).toString === """[["Cay"]]""" // Nothing added since tx3 Person.name.getRawSince(tx3).toString === """[]"""
- tx
TxReport (returned from all molecule transaction operations)
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncRawSince method.
- def getRawSince(t: Long, n: Int)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of n untyped rows matching molecule since transaction timet
.Get
java.util.Collection
of n untyped rows matching molecule since transaction timet
.
CallgetRawSince
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved callingt
on the tx report returned from transactional operations and then be used to get data since that point in time (excluding that transaction):// 3 transaction times `t` val t1 = Person.name("Ann").save.t val t2 = Person.name("Ben").save.t val t3 = Person.name("Cay").save.t // Current values as Iterable Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since transaction time t1 Person.name.getRawSince(t1).toString === """[["Ben"], ["Cay"]]""" // Ben and Cay added since transaction time t1 - only n (1) rows returned Person.name.getRawSince(t1).toString === """[["Ben"]]"""
- t
Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncRawSince method.
- def getRawSince(t: Long)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of all untyped rows matching molecule since transaction timet
.Get
java.util.Collection
of all untyped rows matching molecule since transaction timet
.
CallgetRawSince
when data doesn't need to be type-casted. Datomic's raw data is returned as-is.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved callingt
on the tx report returned from transactional operations and then be used to get data since that point in time (excluding that transaction):// 3 transaction times `t` val t1 = Person.name("Ann").save.t val t2 = Person.name("Ben").save.t val t3 = Person.name("Cay").save.t // Current values as Iterable Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since transaction time t1 Person.name.getRawSince(t1).toString === """[["Ben"], ["Cay"]]""" // Cay added since transaction time t2 Person.name.getRawSince(t2).toString === """[["Cay"]]""" // Nothing added since transaction time t3 Person.name.getRawSince(t3).toString === """[]"""
- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncRawSince method.
- def getRawWith(txData: List[_], n: Int)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of n untyped rows matching molecule with applied raw transaction data.Get
java.util.Collection
of n untyped rows matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db to see how it would then look:// Live size of Person db Person.name.get.size === 150 // Read some transaction data from file val data_rdr2 = new FileReader("examples/resources/seattle/seattle-data1a.dtm") val newDataTx = Util.readAll(data_rdr2).get(0).asInstanceOf[java.util.List[Object]] // Imagine future db - 100 persons would be added, apparently Person.name.getRawWith(newDataTx).size === 250 // Imagine future db - Let's just take 10 Person.name.getRawWith(newDataTx, 10).size === 10
- txData
Raw transaction data as java.util.List[Object]
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
with
Equivalent asynchronous getAsyncRawWith method.
- def getRawWith(txData: List[_])(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of all untyped rows matching molecule with applied raw transaction data.Get
java.util.Collection
of all untyped rows matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db to see how it would then look:// Live size of Person db Person.name.get.size === 150 // Read some transaction data from file val data_rdr2 = new FileReader("examples/resources/seattle/seattle-data1a.dtm") val newDataTx = Util.readAll(data_rdr2).get(0).asInstanceOf[java.util.List[Object]] // Imagine future db - 100 persons would be added, apparently Person.name.getRawWith(newDataTx).size === 250
- txData
Raw transaction data as java.util.List[Object]
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
with
Equivalent asynchronous getAsyncRawWith method.
- def getRawWith(n: Int, txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of n untyped rows matching molecule with applied molecule transaction data.Get
java.util.Collection
of n untyped rows matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db to see how it would then look:// Current state val List(ben, liz) = Person.name.likes.insert( ("Ben", "pasta"), ("Liz", "pizza") ).eids // Test multiple transactions Person.name.likes.getRawWith( Person(ben).likes("sushi").getUpdateTx, Person(liz).likes("cake").getUpdateTx ).toString === """[["Ben" "sushi"], ["Liz" "cake"]]""" // Same as above, but only n (1) rows returned: Person.name.likes.getRawWith( 1 Person(ben).likes("sushi").getUpdateTx, Person(liz).likes("cake").getUpdateTx ).toString === """[["Ben" "sushi"]]"""
Multiple transactions can be applied to test more complex what-if scenarios!
- n
Int Number of rows returned
- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- Note
Note how the
n
parameter has to come before thetxMolecules
vararg.- See also
Manual on
with
Equivalent asynchronous getAsyncRawWith method.
- def getRawWith(txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): Collection[List[AnyRef]]
Get
java.util.Collection
of all untyped rows matching molecule with applied molecule transaction data.Get
java.util.Collection
of all untyped rows matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db to see how it would then look:// Current state val ben = Person.name("Ben").likes("pasta").save.eid // Base data Person.name.likes.getRawWith( Person(ben).likes("sushi").getUpdateTx ).toString ==== """[["Ben" "sushi"]]""" // Current state is still the same Person.name.likes.get === List(("Ben", "pasta"))
Multiple transactions can be applied to test more complex what-if scenarios!
- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
java.util.Collection[java.util.List[AnyRef]]
- Definition Classes
- GetRaw
- See also
Manual on
with
Equivalent asynchronous getAsyncRawWith method.
- def getSaveTx(implicit conn: Conn): Seq[Seq[Statement]]
Get transaction statements of a call to
save
on a molecule (without affecting the db). - def getSince(date: Date, n: Int)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of n rows as tuples matching molecule since date.Get
List
of n rows as tuples matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).// Transact 3 times (`inst` retrieves transaction time/Date from tx report) val date1 = Person.name("Ann").save.inst val date2 = Person.name("Ben").save.inst val date3 = Person.name("Cay").save.inst // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since date1 Person.name.getSince(date1) === List("Ben", "Cay") // Ben and Cay added since date1 - only n (1) rows returned Person.name.getSince(date1, 1) === List("Ben")
- date
java.util.Date
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncSince method.
- def getSince(date: Date)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of all rows as tuples matching molecule since date.Get
List
of all rows as tuples matching molecule since date.
Get data added/retracted since a human point in time (a java.util.Date).// Transact 3 times (`inst` retrieves transaction time/Date from tx report) val date1 = Person.name("Ann").save.inst val date2 = Person.name("Ben").save.inst val date3 = Person.name("Cay").save.inst // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since date1 Person.name.getSince(date1) === List("Ben", "Cay") // Cay added since date2 Person.name.getSince(date2) === List("Cay") // Nothing added since date3 Person.name.getSince(date3) === Nil
- date
java.util.Date
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncSince method.
- def getSince(tx: TxReport, n: Int)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of n rows as tuples matching molecule since tx.Get
List
of n rows as tuples matching molecule since tx.
Datomic's internalsince
can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we getAsync a TxReport from transaction operations likeget
,update
,retract
etc.// Get tx reports for 3 transactions val tx1 = Person.name("Ann").save val tx2 = Person.name("Ben").save val tx3 = Person.name("Cay").save // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since tx1 Person.name.getSince(tx1) === List("Ben", "Cay") // Ben and Cay added since tx1 - only n (1) rows returned Person.name.getSince(tx1, 1) === List("Ben")
- tx
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncSince method.
- def getSince(tx: TxReport)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of all rows as tuples matching molecule since tx.Get
List
of all rows as tuples matching molecule since tx.
Datomic's internalsince
can take a transaction entity id as argument to retrieve a database value since that transaction (excluding the transaction itself).
Instead of supplying the transaction entity id, in Molecule we supply a TxReport that contains the transaction entity id (which is used as argument to Datomic internally). This is more convenient when using Molecule since we getAsync a TxReport from transaction operations likeget
,update
,retract
etc.// Get tx reports for 3 transactions val tx1 = Person.name("Ann").save val tx2 = Person.name("Ben").save val tx3 = Person.name("Cay").save // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since tx1 Person.name.getSince(tx1) === List("Ben", "Cay") // Cay added since tx2 Person.name.getSince(tx2) === List("Cay") // Nothing added since tx3 Person.name.getSince(tx3) === Nil
- tx
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncSince method.
- def getSince(t: Long, n: Int)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of n rows as tuples matching molecule since transaction timet
.Get
List
of n rows as tuples matching molecule since transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved by callingt
on the tx report returned from transactional operations and then be used to get data since that point in time (excluding that transaction):// 3 transaction times `t` val t1 = Person.name("Ann").save.t val t2 = Person.name("Ben").save.t val t3 = Person.name("Cay").save.t // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since transaction time t 1028 Person.name.getSince(t1) === List("Ben", "Cay") // Ben and Cay added since transaction time t 1028 - only n (1) rows returned Person.name.getSince(t1, 1) === List("Ben")
- t
Transaction time t
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncSince method.
- def getSince(t: Long)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of all rows as tuples matching molecule since transaction timet
.Get
List
of all rows as tuples matching molecule since transaction timet
.
Transaction timet
is an auto-incremented transaction number assigned internally by Datomic.
t
can for instance be retrieved by callingt
on the tx report returned from transactional operations and then be used to get data since that point in time (excluding that transaction):// 3 transaction times `t` val t1 = Person.name("Ann").save.t val t2 = Person.name("Ben").save.t val t3 = Person.name("Cay").save.t // Current values Person.name.get === List("Ann", "Ben", "Cay") // Ben and Cay added since transaction time t 1028 Person.name.getSince(t1) === List("Ben", "Cay") // Cay added since transaction time t 1030 Person.name.getSince(t2) === List("Cay") // Nothing added since transaction time t 1032 Person.name.getSince(t3) === Nil
- t
Transaction time t
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
asof
/since
Equivalent asynchronous getAsyncSince method.
- def getUpdateTx(implicit conn: Conn): Seq[Seq[Statement]]
Get transaction statements of a call to
update
on a molecule (without affecting the db). - def getWith(txData: List[_], n: Int)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of n rows as tuples matching molecule with applied raw transaction data.Get
List
of n rows as tuples matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db to see how it would then look:// Live size of Person db Person.name.get.size === 150 // Read some transaction data from file val data_rdr2 = new FileReader("examples/resources/seattle/seattle-data1a.dtm") val newDataTx = Util.readAll(data_rdr2).get(0).asInstanceOf[java.util.List[Object]] // Imagine future db - 100 persons would be added, apparently Person.name.getWith(newDataTx).size === 250 // Imagine future db - Let's just take 10 Person.name.getWith(newDataTx, 10).size === 10
- txData
Raw transaction data as java.util.List[Object]
- n
Int Number of rows returned
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
with
Equivalent asynchronous getAsyncWith method.
- def getWith(txData: List[_])(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of all rows as tuples matching molecule with applied raw transaction data.Get
List
of all rows as tuples matching molecule with applied raw transaction data.
Apply raw transaction data to in-memory "branch" of db without affecting db to see how it would then look:// Live size of Person db Person.name.get.size === 150 // Read some transaction data from file val data_rdr2 = new FileReader("examples/resources/seattle/seattle-data1a.dtm") val newDataTx = Util.readAll(data_rdr2).get(0).asInstanceOf[java.util.List[Object]] // Imagine future db - 100 persons would be added, apparently Person.name.getWith(newDataTx).size === 250
- txData
Raw transaction data as java.util.List[Object]
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
with
Equivalent asynchronous getAsyncWith method.
- def getWith(n: Int, txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of n rows as tuples matching molecule with applied molecule transaction data.Get
List
of n rows as tuples matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db to see how it would then look:// Current state val List(ben, liz) = Person.name.likes.insert( ("Ben", "pasta"), ("Liz", "pizza") ).eids // Test multiple transactions Person.name.likes.getWith( Person(ben).likes("sushi").getUpdateTx, Person(liz).likes("cake").getUpdateTx ) === List( ("Ben", "sushi") ("Liz", "cake") ) // Same as above, but only n (1) rows returned: Person.name.likes.getWith( 1 Person(ben).likes("sushi").getUpdateTx, Person(liz).likes("cake").getUpdateTx ) === List( ("Ben", "sushi") )
- n
Int Number of rows returned
- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- Note
Note how the
n
parameter has to come before thetxMolecules
vararg.- See also
Manual on
with
Equivalent asynchronous getAsyncWith method.
- def getWith(txMolecules: Seq[Seq[Statement]]*)(implicit conn: Conn): List[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Get
List
of all rows as tuples matching molecule with applied molecule transaction data.Get
List
of all rows as tuples matching molecule with applied molecule transaction data.
Apply one or more molecule transactions to in-memory "branch" of db without affecting db to see how it would then look:// Current state val ben = Person.name("Ben").likes("pasta").save.eid // Base data Person.name.likes.getWith( // apply imaginary transaction data Person(ben).likes("sushi").getUpdateTx ) === List( // Effect: Ben would like sushi if tx was applied ("Ben", "sushi") ) // Current state is still the same Person.name.likes.get === List(("Ben", "pasta"))
Multiple transactions can be applied to test more complex what-if scenarios!
- txMolecules
Transaction statements from applied Molecules with test data
- conn
Implicit Conn value in scope
- returns
List[Tpl] where Tpl is a tuple of data matching molecule
- Definition Classes
- GetList
- See also
Manual on
with
Equivalent asynchronous getAsyncWith method.
- def hashCode(): Int
- Definition Classes
- AnyRef → Any
- Annotations
- @native()
- final def isInstanceOf[T0]: Boolean
- Definition Classes
- Any
- def jsonAggr(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrDate(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrLazySeq(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrLazySeqDate(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrLazySeqQuoted(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrLazySeqToString(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrList(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrListDate(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrListQuoted(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrListRand(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrListRandDate(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrListRandQuoted(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrListRandToString(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrListToString(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrQuoted(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrSingleSample(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrSingleSampleDate(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrSingleSampleQuoted(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrSingleSampleToString(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonAggrToString(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonMany(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonManyDate(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonManyQuoted(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonManyToString(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonMap(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonMapDate(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonMapQuoted(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOne(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOneAny(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOneDate(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOneQuoted(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOneToString(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOptMany(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOptManyDate(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOptManyEnum(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOptManyQuoted(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOptManyToString(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOptMap(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOptMapDate(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOptMapQuoted(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOptOne(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOptOneDate(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOptOneEnum(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOptOneQuoted(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def jsonOptOneToString(sb: StringBuilder, field: String, row: List[_], i: Int): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- lazy val localOffset: String
- Definition Classes
- DateHandling
- lazy val localZoneOffset: ZoneOffset
- Definition Classes
- DateHandling
- final def ne(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
- final def notify(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native()
- final def notifyAll(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native()
- final def o(opt: Option[Any]): String
- Attributes
- protected
- Definition Classes
- Helpers
- final def os(opt: Option[Set[_]]): String
- Attributes
- protected
- Definition Classes
- Helpers
- def pair(sb: StringBuilder, field: String, value: Any): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def quote(sb: StringBuilder, s: String): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def quotedPair(sb: StringBuilder, field: String, value: String): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def row2json(sb: StringBuilder, row: List[AnyRef]): StringBuilder
- Attributes
- protected
- Definition Classes
- JsonBuilder
- def save(implicit conn: Conn): TxReport
Save data applied to molecule attributes.
Save data applied to molecule attributes.
Returns TxReport having info about the result of the save transaction.val txReport = Person.name("Ben").age(42).save // Data has been saved in db Person.name.age.get === List(("Ben", 42))
The save operation is synchronous and blocking. Use
saveAsync
for non-blocking asynchronous saves.- Definition Classes
- Molecule
- def saveAsync(implicit conn: Conn, ec: ExecutionContext): Future[TxReport]
Asynchronously save data applied to molecule attributes.
Asynchronously save data applied to molecule attributes.
ReturnsFuture
with TxReport having info about the result of the save transaction.val futureSave: Future[TxReport] = Person.name("Ben").age(42).saveAsync for { _ <- futureSave result <- Person.name.age.getAsync } yield { // Data was saved result.head === ("Ben", 42) }
The save operation is asynchronous and non-blocking. Internally calls Datomic's asynchronous API.
- Definition Classes
- Molecule
- final def seq[T](values: Seq[T]): String
- Attributes
- protected
- Definition Classes
- Helpers
- def str2date(s: String, zoneOffset: ZoneOffset = localZoneOffset): Date
- Definition Classes
- DateHandling
- def str2zdt(s: String, zoneOffset: ZoneOffset = localZoneOffset): ZonedDateTime
- Definition Classes
- DateHandling
- final def synchronized[T0](arg0: => T0): T0
- Definition Classes
- AnyRef
- final def time(n: Int, prev: Int = 0): Unit
- Attributes
- protected
- Definition Classes
- Helpers
- def toString(): String
- Definition Classes
- AnyRef → Any
- def truncateDateStr(dateStr: String): String
- Definition Classes
- DateHandling
- final def tupleToSeq(arg: Any): Seq[Any]
- Attributes
- protected
- Definition Classes
- Helpers
- def unescStr(s: String): String
- Definition Classes
- Helpers
- def untupled(rawData: Iterable[Seq[Any]]): Seq[Seq[Any]]
- Attributes
- protected
- Definition Classes
- Molecule
- def update(implicit conn: Conn): TxReport
Update entity with data applied to molecule attributes.
Update entity with data applied to molecule attributes.
Returns TxReport with info about the result of the update transaction.// Current data val ben = Person.name("Ben").age(42).save.eid // Update entity of of Ben with new age value Person(ben).age(43).update // Ben is now 43 Person.name.age.get === List(("ben", 43))
The update operation is synchronous and blocking. Use
updateAsync
for non-blocking asynchronous updates.- Definition Classes
- Molecule
- def updateAsync(implicit conn: Conn, ec: ExecutionContext): Future[TxReport]
Asynchronously update entity with data applied to molecule attributes.
Asynchronously update entity with data applied to molecule attributes. Returns
Future
with TxReport having info about the result of the update transaction.for { saveTx <- Person.name("Ben").age(42).saveAsync benId = saveTx.eid updateTx <- Person(benId).age(43).updateAsync result <- Person.name.age.getAsync } yield { // Ben is now 43 result.head === ("ben", 43) }
The update operation is asynchronous and non-blocking. Internally calls Datomic's asynchronous API.
- Definition Classes
- Molecule
- final def wait(): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.InterruptedException])
- final def wait(arg0: Long, arg1: Int): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.InterruptedException])
- final def wait(arg0: Long): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.InterruptedException]) @native()
- lazy val zone: ZoneId
- Definition Classes
- DateHandling
- object debugInsert extends debugInsert with checkInsertModel
See debugInsert
- object getInsertTx extends getInsertTx with checkInsertModel
See getInsertTx
- object insert extends insert with checkInsertModel
See insert
- object insertAsync extends insertAsync with checkInsertModel
See insertAsync
- object mkDate
- Attributes
- protected
- Definition Classes
- Helpers
Inherited from Molecule[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Inherited from ShowDebug[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Inherited from GetAsyncJson
Inherited from GetAsyncRaw
Inherited from GetAsyncList[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Inherited from GetAsyncIterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Inherited from GetAsyncArray[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Inherited from GetJson
Inherited from GetRaw
Inherited from GetList[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Inherited from GetIterable[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Inherited from GetArray[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Inherited from JsonBuilder
Inherited from CastHelpers[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Inherited from CastHelpersAggr[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Inherited from CastHelpersOptNested[(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U)]
Inherited from Helpers
Inherited from DateHandling
Inherited from RegexMatching
Inherited from MoleculeBase
Inherited from AnyRef
Inherited from Any
get
getAsync
getAsOf
getAsyncAsOf
getArrayAsOf
getAsyncArrayAsOf
getIterableAsOf
getAsyncIterableAsOf
getJsonAsOf
getAsyncJsonAsOf
getRawAsOf
getAsyncRawAsOf
getSince
getAsyncSince
getArraySince
getAsyncArraySince
getIterableSince
getAsyncIterableSince
getJsonSince
getAsyncJsonSince
getRawSince
getAsyncRawSince
getWith
getAsyncWith
getArrayWith
getAsyncArrayWith
getIterableWith
getAsyncIterableWith
getJsonWith
getAsyncJsonWith
getRawWith
getAsyncRawWith
getHistory
(only implemented to return List of tuples)
save
insert
update
getTx
Debug get
Molecule getter debugging methods.
Debug operation
Molecule operation debugging methods (no effect on live db).
Documentation/API for the Molecule library - a meta DSL for the Datomic database.
Manual | scalamolecule.org | Github | Forum