An opinionated F# library to interact with SQLite databases following Vp.FSharp.Sql principles and relying on System.Data.SQLite.Core.
๐ Note: For the time being, it has been decided to not rely on Microsoft.Data.Sqlite
due to its lack of support for TransactionScope.
We aim at following highly controversial practices to the best of our ability!
| Status | Package |
|---|---|
| OK |  |
| OK |  |
| TBD |  |
| TBD |  |
| Name | Version | Command |
|---|---|---|
Vp.FSharp.Sql.Sqlite |
 |
Install-Package Vp.FSharp.Sql.Sqlite |
๐ Note: It's worth noting that the examples below illustrating functions running asynchronously do leverage Async.RunSynchronously. This is purely for the sake of reducing the nestedness that would happen if we were using async computation expressions instead.
Just a little FYI:
/// Native SQLite DB types.
/// See https://www.sqlite.org/datatype3.html
type SqliteDbValue =
| Null
| Integer of int64
| Real of double
| Text of string
| Blob of byte arrayThe main module is here to help you build and execute SQL(ite) commands (i.e. SQLiteCommand BTS).
We are obviously going to talk about how to build SQLiteCommand definition.
๐ Note: the meaning of the word "update" below has to be put in a F# perspective, i.e. immutable update, as in the update returns a new updated and immutable instance.
text
Initialize a new command definition with the given text contained in the given string.
Example:
use connection = new SQLiteConnection("Data Source=:memory:")
SqliteCommand.text "SELECT 42;"
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output:
42LtextFromList
Initialize a new command definition with the given text spanning over several strings (ie. list).
Example:
use connection = new SQLiteConnection("Data Source=:memory:")
[ 0; 1; 1; 2; 3; 5; 8; 13; 21; 34; 55; ]
|> List.map (sprintf "SELECT %d;")
|> SqliteCommand.textFromList
|> SqliteCommand.queryList connection (fun _ _ read -> read.Value<int64> 0)
|> Async.RunSynchronously
|> printfn "%A"Output:
[0L; 1L; 1L; 2L; 3L; 5L; 8L; 13L; 21L; 34L; 55L]noLogger
Update the command definition so that when executing the command, it doesn't use any logger. Be it the default one (Global, if any.) or a previously overriden one.
Example:
SqliteConfiguration.Logger (printfn "Logging... %A")
use connection = new SQLiteConnection("Data Source=:memory:")
SqliteCommand.text "SELECT 42;"
|> SqliteCommand.noLogger
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output:
42LoverrideLogger
Update the command definition so that when executing the command, it use the given overriding logger. instead of the default one, aka the Global logger, if any.
Example:
SqliteConfiguration.NoLogger ()
use connection = new SQLiteConnection("Data Source=:memory:")
SqliteCommand.text "SELECT 42;"
|> SqliteCommand.overrideLogger (printfn "Logging... %A")
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output:
Logging... ConnectionOpened System.Data.SQLite.SQLiteConnection
Logging... CommandPrepared System.Data.SQLite.SQLiteCommand
Logging... CommandExecuted (System.Data.SQLite.SQLiteCommand, 00:00:00.0271871)
Logging... ConnectionClosed (System.Data.SQLite.SQLiteConnection, 00:00:00.1197869)
42Lparameters
Update the command definition with the given parameters.
Example:
use connection = new SQLiteConnection("Data Source=:memory:")
SqliteCommand.text "SELECT @a + @b;"
|> SqliteCommand.parameters [ ("a", Integer 42L); ("b", Real 42.42) ]
|> SqliteCommand.executeScalar<double> connection
|> Async.RunSynchronously
|> printfn "%A"Output:
84.42cancellationToken
Update the command definition with the given cancellation token.
This comes in handy when you need to interop with more traditional, C#-async, cancellation style.
Example:
try
use connection = new SQLiteConnection("Data Source=:memory:")
SqliteCommand.text "SELECT 42;"
|> SqliteCommand.cancellationToken (CancellationToken(true))
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> ignore
with
| :? OperationCanceledException as e ->
printfn "The Command execution has been cancelled, reason: %A" e.MessageOutput:
The Command execution has been cancelled, reason: "A task was canceled."timeout
Update the command definition with the given timeout.
๐ Note about System.Data.SQLite specifics:
kludged because SQLite doesn't support per-command timeout values.
For a simple select query, no, there doesn't appear to be a way to set a timeout, or maximum time to execute, on SQLite itself. The only mention of timeout in the documentation is the busy timeout. So, if you need to limit the maximum amount of time a select query can take, you'll need to wrap your connection with a timeout in the application level, and cancel/close your connection if that timeout is exceeded. How to do that would obviously be application/language specific.
๐ Sources:
- StackOverflow:
SQLiteCommand.CommandTimeoutbehavior - StackOverflow: Specify
SELECTtimeout for SQLITE
Also it's really when you look at the actual source code powering the System.Data.SQLite:
SQLiteCommand._commandTimeout:
/// <summary>
/// The timeout for the command, kludged because SQLite doesn't support per-command timeout values
/// </summary>
internal int _commandTimeout;prepare
Update the command definition and sets whether the command should be prepared or not.
As per MS Docs:
Use the
Preparedproperty to have the provider save a prepared (or compiled) version of the query specified in the CommandText property before a Command object's first execution.This may slow a command's first execution, but once the provider compiles a command, the provider will use the compiled version of the command for any subsequent executions, which will result in improved performance.
Example: TBD
transaction
Update the command definition and set whether the command should be wrapped in the given transaction.
Example:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
use transaction = connection.BeginTransaction(IsolationLevel.ReadCommitted)
// Create a table
SqliteCommand.text $"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.transaction transaction
|> SqliteCommand.executeNonQuery connection
|> Async.RunSynchronously
|> printfn "%A"
// The table is created here
SqliteCommand.text $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.transaction transaction
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"
transaction.Rollback()
// The table creation has been rollbacked
SqliteCommand.text $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output:
0
1L
0LWe are obviously going to talk about how to execute SQLiteCommand definitions.
queryAsyncSeq
Execute the command and return the sets of rows as an
AsyncSeqaccordingly to the command definition.This function runs asynchronously.
Example 1:
type Row<'T> = { Set: int32; Record: int32; Data: 'T list }
let getCounterQuery n =
sprintf
"""
WITH RECURSIVE counter(value) AS (VALUES(1) UNION ALL SELECT value + 1 FROM counter WHERE value < %d)
SELECT value FROM counter;
""" n
let readRow set record (read: SqlRecordReader<_>) =
{ Set = set; Record = record; Data = List.init (read.Count) (read.Value<int64>) }
use connection = new SQLiteConnection("Data Source=:memory:")
[ 0; 1; 1; 2; 3; 5 ]
|> List.map getCounterQuery
|> SqliteCommand.textFromList
|> SqliteCommand.queryAsyncSeq connection readRow
|> AsyncSeq.toListSynchronously
|> List.iter (fun x -> printfn "Set = %A; Row = %A; Data = %A" x.Set x.Record x.Data)Output 1:
Set = 0; Row = 0; Data = [1L]
Set = 1; Row = 0; Data = [1L]
Set = 2; Row = 0; Data = [1L]
Set = 3; Row = 0; Data = [1L]
Set = 3; Row = 1; Data = [2L]
Set = 4; Row = 0; Data = [1L]
Set = 4; Row = 1; Data = [2L]
Set = 4; Row = 2; Data = [3L]
Set = 5; Row = 0; Data = [1L]
Set = 5; Row = 1; Data = [2L]
Set = 5; Row = 2; Data = [3L]
Set = 5; Row = 3; Data = [4L]
Set = 5; Row = 4; Data = [5L]Notes ๐:
- The output type must be consistent across all the result sets and records.
- If you need different types you may want to either:
- Create DU with each type you want to output
- Use
querySetList2orquerySetList3โฌ๏ธ
- The
reader can also get theValuegiven a certain field name:
Example 2:
use connection = new SQLiteConnection("Data Source=:memory:")
[ 0; 1; 1; 2; 3; 5; 8; 13; 21; 34; 55; ]
|> List.map (sprintf "SELECT %d AS cola;")
|> SqliteCommand.textFromList
|> SqliteCommand.queryList connection (fun _ _ read -> read.Value<int64> "cola")
|> Async.RunSynchronously
|> printfn "%A"Output 2:
[0L; 1L; 1L; 2L; 3L; 5L; 8L; 13L; 21L; 34L; 55L]querySeqSync
Execute the command and return the sets of rows as a
seqaccordingly to the command definition.This function runs synchronously.
Example 1:
type Row<'T> = { Set: int32; Record: int32; Data: 'T list }
let getCounterQuery n =
sprintf
"""
WITH RECURSIVE counter(value) AS (VALUES(1) UNION ALL SELECT value + 1 FROM counter WHERE value < %d)
SELECT value FROM counter;
""" n
let readRow set record (read: SqlRecordReader<_>) =
{ Set = set; Record = record; Data = List.init (read.Count) (read.Value<int64>) }
use connection = new SQLiteConnection("Data Source=:memory:")
[ 0; 1; 1; 2; 3; 5 ]
|> List.map getCounterQuery
|> SqliteCommand.textFromList
|> SqliteCommand.querySeqSync connection readRow
|> Seq.iter (fun x -> printfn "Set = %A; Row = %A; Data = %A" x.Set x.Record x.Data)Output 1:
Set = 0; Row = 0; Data = [1L]
Set = 1; Row = 0; Data = [1L]
Set = 2; Row = 0; Data = [1L]
Set = 3; Row = 0; Data = [1L]
Set = 3; Row = 1; Data = [2L]
Set = 4; Row = 0; Data = [1L]
Set = 4; Row = 1; Data = [2L]
Set = 4; Row = 2; Data = [3L]
Set = 5; Row = 0; Data = [1L]
Set = 5; Row = 1; Data = [2L]
Set = 5; Row = 2; Data = [3L]
Set = 5; Row = 3; Data = [4L]
Set = 5; Row = 4; Data = [5L]Notes ๐:
- The output type must be consistent across all the result sets and records.
- If you need different types you may want to either:
- Create DU with each type you want to output
- Use
querySetList2orquerySetList3โฌ๏ธ
- The
reader can also get theValuegiven a certain field name:
Example 2:
use connection = new SQLiteConnection("Data Source=:memory:")
[ 0; 1; 1; 2; 3; 5; 8; 13; 21; 34; 55; ]
|> List.map (sprintf "SELECT %d AS cola;")
|> SqliteCommand.textFromList
|> SqliteCommand.queryList connection (fun _ _ read -> read.Value<int64> "cola")
|> Async.RunSynchronously
|> printfn "%A"Output 2:
[0L; 1L; 1L; 2L; 3L; 5L; 8L; 13L; 21L; 34L; 55L]queryList
Execute the command and return the sets of rows as a list accordingly to the command definition.
This function runs asynchronously.
Example:
use connection = new SQLiteConnection("Data Source=:memory:")
[ 0; 1; 1; 2; 3; 5; 8; 13; 21; 34; 55; ]
|> List.map (sprintf "SELECT %d;")
|> SqliteCommand.textFromList
|> SqliteCommand.queryList connection (fun _ _ read -> read.Value<int64> 0)
|> Async.RunSynchronously
|> printfn "%A"Output:
[0L; 1L; 1L; 2L; 3L; 5L; 8L; 13L; 21L; 34L; 55L]queryListSync
Execute the command and return the sets of rows as a list accordingly to the command definition.
This function runs synchronously.
Example:
use connection = new SQLiteConnection("Data Source=:memory:")
[ 0; 1; 1; 2; 3; 5; 8; 13; 21; 34; 55; ]
|> List.map (sprintf "SELECT %d;")
|> SqliteCommand.textFromList
|> SqliteCommand.queryListSync connection (fun _ _ read -> read.Value<int64> 0)
|> printfn "%A"Output:
[0L; 1L; 1L; 2L; 3L; 5L; 8L; 13L; 21L; 34L; 55L]querySetList
Execute the command and return the first set of rows as a list accordingly to the command definition.
This function runs asynchronously.
Example:
type Row<'T> = { Set: int32; Record: int32; Data: 'T list }
let readRow set record (read: SqlRecordReader<_>) =
{ Set = set; Record = record; Data = List.init (read.Count) (read.Value<int64>) }
use connection = new SQLiteConnection("Data Source=:memory:")
[ 0; 1; 1; 2; 3; 5 ]
|> List.map (sprintf "SELECT %d;")
|> SqliteCommand.textFromList
|> SqliteCommand.querySetList connection (readRow 1)
|> Async.RunSynchronously
|> List.iter (fun x -> printfn "Set = %A; Row = %A; Data = %A" x.Set x.Record x.Data)Output:
Set = 1; Row = 0; Data = [0L]querySetListSync
Execute the command and return the first set of rows as a list accordingly to the command definition.
This function runs synchronously.
Example:
type Row<'T> = { Set: int32; Record: int32; Data: 'T list }
let readRow set record (read: SqlRecordReader<_>) =
{ Set = set; Record = record; Data = List.init (read.Count) (read.Value<int64>) }
use connection = new SQLiteConnection("Data Source=:memory:")
[ 0; 1; 1; 2; 3; 5 ]
|> List.map (sprintf "SELECT %d;")
|> SqliteCommand.textFromList
|> SqliteCommand.querySetListSync connection (readRow 1)
|> List.iter (fun x -> printfn "Set = %A; Row = %A; Data = %A" x.Set x.Record x.Data)Output:
Set = 1; Row = 0; Data = [0L]querySetList2
Execute the command and return the 2 first sets of rows as a tuple of 2 lists accordingly to the command definition.
This function runs asynchronously.
Example:
type Row<'T> = { Set: int32; Record: int32; Data: 'T list }
let readRow set record (read: SqlRecordReader<_>) =
{ Set = set; Record = record; Data = List.init (read.Count) (read.Value<int64>) }
let printRow row = printfn "Set = %A; Row = %A; Data = %A" row.Set row.Record row.Data
let set1, set2 =
use connection = new SQLiteConnection("Data Source=:memory:")
[ 0; 1; 1; 2; 3; 5 ]
|> List.map (sprintf "SELECT %d;")
|> SqliteCommand.textFromList
|> SqliteCommand.querySetList2 connection (readRow 1) (readRow 2)
|> Async.RunSynchronously
List.iter printRow set1
List.iter printRow set2Output:
Set = 1; Row = 0; Data = [0L]
Set = 2; Row = 0; Data = [1L]querySetList2Sync
Execute the command and return the 2 first sets of rows as a tuple of 2 lists accordingly to the command definition.
This function runs synchronously.
Example:
type Row<'T> = { Set: int32; Record: int32; Data: 'T list }
let readRow set record (read: SqlRecordReader<_>) =
{ Set = set; Record = record; Data = List.init (read.Count) (read.Value<int64>) }
let printRow row = printfn "Set = %A; Row = %A; Data = %A" row.Set row.Record row.Data
let set1, set2 =
use connection = new SQLiteConnection("Data Source=:memory:")
[ 0; 1; 1; 2; 3; 5 ]
|> List.map (sprintf "SELECT %d;")
|> SqliteCommand.textFromList
|> SqliteCommand.querySetList2Sync connection (readRow 1) (readRow 2)
List.iter printRow set1
List.iter printRow set2Output:
Set = 1; Row = 0; Data = [0L]
Set = 2; Row = 0; Data = [1L]querySetList3
Execute the command and return the 3 first sets of rows as a tuple of 3 lists accordingly to the command definition.
This function runs asynchronously.
Example:
type Row<'T> = { Set: int32; Record: int32; Data: 'T list }
let readRow set record (read: SqlRecordReader<_>) =
{ Set = set; Record = record; Data = List.init (read.Count) (read.Value<int64>) }
let printRow row = printfn "Set = %A; Row = %A; Data = %A" row.Set row.Record row.Data
let set1, set2, set3 =
use connection = new SQLiteConnection("Data Source=:memory:")
[ 0; 1; 1; 2; 3; 5 ]
|> List.map (sprintf "SELECT %d;")
|> SqliteCommand.textFromList
|> SqliteCommand.querySetList3 connection (readRow 1) (readRow 2) (readRow 3)
|> Async.RunSynchronously
List.iter printRow set1
List.iter printRow set2
List.iter printRow set3Output:
Set = 1; Row = 0; Data = [0L]
Set = 2; Row = 0; Data = [1L]
Set = 3; Row = 0; Data = [1L]querySetList3Sync
Execute the command and return the 3 first sets of rows as a tuple of 3 lists accordingly to the command definition.
This function runs synchronously.
Example:
type Row<'T> = { Set: int32; Record: int32; Data: 'T list }
let readRow set record (read: SqlRecordReader<_>) =
{ Set = set; Record = record; Data = List.init (read.Count) (read.Value<int64>) }
let printRow row = printfn "Set = %A; Row = %A; Data = %A" row.Set row.Record row.Data
let set1, set2, set3 =
use connection = new SQLiteConnection("Data Source=:memory:")
[ 0; 1; 1; 2; 3; 5 ]
|> List.map (sprintf "SELECT %d;")
|> SqliteCommand.textFromList
|> SqliteCommand.querySetList3Sync connection (readRow 1) (readRow 2) (readRow 3)
List.iter printRow set1
List.iter printRow set2
List.iter printRow set3Output:
Set = 1; Row = 0; Data = [0L]
Set = 2; Row = 0; Data = [1L]
Set = 3; Row = 0; Data = [1L]executeScalar<'Scalar>
Execute the command accordingly to its definition and,
- return the first cell value, if it is available and of the given type.
- throw an exception, otherwise.
This function runs asynchronously.
Example:
use connection = new SQLiteConnection("Data Source=:memory:")
SqliteCommand.text "SELECT 42;"
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output:
42executeScalarSync<'Scalar>
Execute the command accordingly to its definition and,
- return the first cell value, if it is available and of the given type.
- throw an exception, otherwise.
This function runs synchronously.
Example:
use connection = new SQLiteConnection("Data Source=:memory:")
SqliteCommand.text "SELECT 42;"
|> SqliteCommand.executeScalarSync<int64> connection
|> printfn "%A"Output:
42executeScalarOrNone<'Scalar>
Execute the command accordingly to its definition and,
- return
Some, if the first cell is available and of the given type.- return
None, if first cell isDBNull.- throw an exception, otherwise.
This function runs asynchronously.
Example:
use connection = new SQLiteConnection("Data Source=:memory:")
SqliteCommand.text "SELECT 42;"
|> SqliteCommand.executeScalarOrNone<int64> connection
|> Async.RunSynchronously
|> printfn "%A"
SqliteCommand.text "SELECT NULL;"
|> SqliteCommand.executeScalarOrNone<int64> connection
|> Async.RunSynchronously
|> printfn "%A"
0Output:
Some 42L
NoneexecuteScalarOrNoneSync<'Scalar>
Execute the command accordingly to its definition and,
- return
Some, if the first cell is available and of the given type.- return
None, if first cell isDBNull.- throw an exception, otherwise.
This function runs synchronously.
Example:
use connection = new SQLiteConnection("Data Source=:memory:")
SqliteCommand.text "SELECT 42;"
|> SqliteCommand.executeScalarOrNoneSync<int64> connection
|> printfn "%A"
SqliteCommand.text "SELECT NULL;"
|> SqliteCommand.executeScalarOrNoneSync<int64> connection
|> printfn "%A"
0Output:
Some 42L
NoneexecuteNonQuery<'Scalar>
Execute the command accordingly to its definition and, return the number of rows affected.
This function runs asynchronously.
Example:
use connection = new SQLiteConnection("Data Source=:memory:")
SqliteCommand.text "SELECT 42;"
|> SqliteCommand.executeNonQuery connection
|> Async.RunSynchronously
|> printfn "%A"Output:
-1executeNonQuerySync<'Scalar>
Execute the command accordingly to its definition and, return the number of rows affected.
This function runs synchronously.
Example:
use connection = new SQLiteConnection("Data Source=:memory:")
SqliteCommand.text "SELECT 42;"
|> SqliteCommand.executeNonQuerySync connection
|> printfn "%A"Output:
-1The module to handle options and results in parameters.
ifNone
Return SQLite DB Null value if the given option is
None, otherwise the underlying wrapped inSome.
Example:
[ "a", SqliteNullDbValue.ifNone Integer (Some 42L)
"b", SqliteNullDbValue.ifNone Integer (None) ]
|> printfn "%A"Output:
[("a", Integer 42L); ("b", Null)]ifError
Return SQLite DB Null value if the given option is
Error, otherwise the underlying wrapped inOk.
Example:
[ "a", SqliteNullDbValue.ifError Integer (Ok 42L)
"b", SqliteNullDbValue.ifError Integer (Error "meh") ]
|> printfn "%A"Output:
[("a", Integer 42L); ("b", Null)]This is the main module to interact with SQLiteTransaction.
๐ Note: The default isolation level is ReadCommitted.
commit
Create and commit an automatically generated transaction with the given connection, isolation, cancellation token and transaction body.
This function runs asynchronously.
Example:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.commit (CancellationToken.None) (IsolationLevel.ReadCommitted) connection (fun connection _ -> async {
do! $"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> Async.Ignore
return!
SqliteCommand.text $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.executeScalar<int64> connection
})
|> Async.RunSynchronously
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output:
1L
1LcommitSync
Create and commit an automatically generated transaction with the given connection, isolation and transaction body.
This function runs synchronously.
Example:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.commitSync (IsolationLevel.ReadCommitted) connection (fun connection _ ->
$"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuerySync connection
|> ignore
SqliteCommand.text $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.executeScalarSync<int64> connection
)
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> printfn "%A"Output:
1L
1LnotCommit
Create and do not commit an automatically generated transaction with the given connection, isolation, cancellation token and transaction body.
This function runs synchronously.
Example:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.notCommit (CancellationToken.None) (IsolationLevel.ReadCommitted) connection (fun connection _ -> async {
do! $"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> Async.Ignore
return!
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
})
|> Async.RunSynchronously
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output:
1L
0LnotCommitSync
Create and do not commit an automatically generated transaction with the given connection, isolation and transaction body.
This function runs synchronously.
Example:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.notCommitSync (IsolationLevel.ReadCommitted) connection (fun connection _ ->
$"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> ignore
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
)
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> printfn "%A"Output:
1L
0LcommitOnSome
Create and commit an automatically generated transaction with the given connection, isolation, cancellation token and transaction body.
The commit phase only occurs if the transaction body returns Some.
This function runs asynchronously.
Example 1:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.commitOnSome (CancellationToken.None) (IsolationLevel.ReadCommitted) connection (fun connection _ -> async {
do! $"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> Async.Ignore
do! $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.Ignore
return Some 42
})
|> Async.RunSynchronously
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output 1:
Some 42
1LExample 2:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.commitOnSome (CancellationToken.None) (IsolationLevel.ReadCommitted) connection (fun connection _ -> async {
do! $"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> Async.Ignore
do! $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.Ignore
return None
})
|> Async.RunSynchronously
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output 2:
None
0LcommitOnSomeSync
Create and commit an automatically generated transaction with the given connection, isolation and transaction body.
The commit phase only occurs if the transaction body returns Some.
This function runs synchronously.
Example 1:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.commitOnSomeSync (IsolationLevel.ReadCommitted) connection (fun connection _ ->
$"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuerySync connection
|> ignore
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> ignore
return Some 42
)
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> printfn "%A"Output 1:
Some 42
1LExample 2:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.commitOnSomeSync (IsolationLevel.ReadCommitted) connection (fun connection _ ->
$"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuerySync connection
|> ignore
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> ignore
return None
)
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> printfn "%A"Output 2:
None
0LcommitOnOk
Create and commit an automatically generated transaction with the given connection, isolation, cancellation token and transaction body.
The commit phase only occurs if the transaction body returns Ok.
This function runs asynchronously.
Example 1:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.commitOnOk (CancellationToken.None) (IsolationLevel.ReadCommitted) connection (fun connection _ -> async {
do! $"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> Async.Ignore
do! $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.Ignore
return Ok 42
})
|> Async.RunSynchronously
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output 1:
Ok 42
1LExample 2:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.commitOnOk (CancellationToken.None) (IsolationLevel.ReadCommitted) connection (fun connection _ -> async {
do! $"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> Async.Ignore
do! $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.Ignore
return Error "fail"
})
|> Async.RunSynchronously
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output 2:
Error "fail"
0LcommitOnOkSync
Create and commit an automatically generated transaction with the given connection, isolation and transaction body.
The commit phase only occurs if the transaction body returns Ok.
This function runs synchronously.
Example 1:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.commitOnOkSync (IsolationLevel.ReadCommitted) connection (fun connection _ ->
$"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuerySync connection
|> ignore
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> ignore
return Ok 42
)
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> printfn "%A"Output 1:
Ok 42
1LExample 2:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.commitOnOkSync (IsolationLevel.ReadCommitted) connection (fun connection _ ->
$"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuerySync connection
|> ignore
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> ignore
return Error "fail"
)
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> printfn "%A"Output 2:
Error "fail"
0LdefaultCommit
Create and commit an automatically generated transaction with the given connection and transaction body.
This function runs asynchronously.
Example:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.defaultCommit connection (fun connection _ -> async {
do! $"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> Async.Ignore
return!
SqliteCommand.text $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.executeScalar<int64> connection
})
|> Async.RunSynchronously
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output:
1L
1LdefaultCommitSync
Create and commit an automatically generated transaction with the given connection and transaction body.
This function runs synchronously.
Example:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.defaultCommitSync connection (fun connection _ ->
$"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuerySync connection
|> ignore
SqliteCommand.text $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.executeScalarSync<int64> connection
)
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> printfn "%A"Output:
1L
1LdefaultNotCommit
Create and do not commit an automatically generated transaction with the given connection and transaction body.
This function runs synchronously.
Example:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.defaultNotCommit connection (fun connection _ -> async {
do! $"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> Async.Ignore
return!
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
})
|> Async.RunSynchronously
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output:
1L
0LdefaultNotCommitSync
Create and do not commit an automatically generated transaction with the given connection and transaction body.
This function runs synchronously.
Example:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.defaultNotCommitSync connection (fun connection _ ->
$"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> ignore
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
)
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> printfn "%A"Output:
1L
0LdefaultCommitOnSome
Create and commit an automatically generated transaction with the given connection and transaction body.
The commit phase only occurs if the transaction body returns Some.
This function runs asynchronously.
Example 1:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.defaultCommitOnSome connection (fun connection _ -> async {
do! $"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> Async.Ignore
do! $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.Ignore
return Some 42
})
|> Async.RunSynchronously
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output 1:
Some 42
1LExample 2:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.defaultCommitOnSome connection (fun connection _ -> async {
do! $"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> Async.Ignore
do! $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.Ignore
return None
})
|> Async.RunSynchronously
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output 2:
None
0LdefaultCommitOnSomeSync
Create and commit an automatically generated transaction with the given connection and transaction body.
The commit phase only occurs if the transaction body returns Some.
This function runs synchronously.
Example 1:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.defaultCommitOnSomeSync connection (fun connection _ ->
$"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuerySync connection
|> ignore
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> ignore
return Some 42
)
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> printfn "%A"Output 1:
Some 42
1LExample 2:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.defaultCommitOnSomeSync connection (fun connection _ ->
$"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuerySync connection
|> ignore
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> ignore
return None
)
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> printfn "%A"Output 2:
None
0LdefaultCommitOnOk
Create and commit an automatically generated transaction with the given connection and transaction body.
The commit phase only occurs if the transaction body returns Ok.
This function runs asynchronously.
Example 1:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.defaultCommitOnOk connection (fun connection _ -> async {
do! $"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> Async.Ignore
do! $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.Ignore
return Ok 42
})
|> Async.RunSynchronously
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output 1:
Ok 42
1LExample 2:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.defaultCommitOnOk connection (fun connection _ -> async {
do! $"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuery connection
|> Async.Ignore
do! $"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.Ignore
return Error "fail"
})
|> Async.RunSynchronously
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalar<int64> connection
|> Async.RunSynchronously
|> printfn "%A"Output 2:
Error "fail"
0LdefaultCommitOnOkSync
Create and commit an automatically generated transaction with the given connection and transaction body.
The commit phase only occurs if the transaction body returns Ok.
This function runs synchronously.
Example 1:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.defaultCommitOnOkSync connection (fun connection _ ->
$"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuerySync connection
|> ignore
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> ignore
return Ok 42
)
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> printfn "%A"Output 1:
Ok 42
1LExample 2:
let tableName = "people"
use connection = new SQLiteConnection("Data Source=:memory:")
connection.Open()
SqliteTransaction.defaultCommitOnOkSync connection (fun connection _ ->
$"CREATE TABLE {tableName} (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT NOT NULL);"
|> SqliteCommand.text
|> SqliteCommand.executeNonQuerySync connection
|> ignore
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> ignore
return Error "fail"
)
|> printfn "%A"
$"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name='{tableName}';"
|> SqliteCommand.text
|> SqliteCommand.executeScalarSync<int64> connection
|> printfn "%A"Output 2:
Error "fail"
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The project is licensed under MIT. For more information on the license see the license file.