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Storage/test/dorkbox/storage/StorageTest.kt

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/*
* Copyright 2021 dorkbox, llc
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package dorkbox.storage
import com.esotericsoftware.kryo.Kryo
import com.esotericsoftware.kryo.io.Input
import com.esotericsoftware.kryo.io.Output
import dorkbox.storage.serializer.SerializerBytes
import org.junit.Assert
import org.junit.FixMethodOrder
import org.junit.Rule
import org.junit.Test
import org.junit.rules.TemporaryFolder
import org.junit.runners.MethodSorters
@FixMethodOrder(MethodSorters.NAME_ASCENDING)
class StorageTest {
data class Tester(val key: String, val value: String)
class TesterSerializer : com.esotericsoftware.kryo.Serializer<Tester>() {
override fun write(kryo: Kryo, output: Output, `object`: Tester) {
output.writeString(`object`.key)
output.writeString(`object`.value)
}
override fun read(kryo: Kryo?, input: Input, type: Class<out Tester>): Tester {
return Tester(input.readString(), input.readString())
}
}
init {
System.setProperty("kryo.unsafe", "false")
}
private val folder = TemporaryFolder()
@Rule
fun tmp(): TemporaryFolder {
return folder
}
@Test
fun memory() {
val tester = Tester("key1", "value1")
// note: we want to auto-close the storage after we write/read it
val storage = Storage.Memory().build()
storage.use {
it["key1"] = tester
}
val tes: Tester? = storage.use {
it["key1"]
}
Assert.assertTrue(tes == tester)
}
@Test
fun memoryEqualityAndHash() {
val tester = Tester("key1", "value1")
val s1 = Storage.Memory()
val s2 = Storage.Memory()
Assert.assertTrue(s1 == s2)
Assert.assertTrue(s1.hashCode() == s2.hashCode())
val s1Build = s1.build()
val s2Build = s2.build()
Assert.assertTrue(s1Build == s2Build)
Assert.assertTrue(s1Build.hashCode() == s2Build.hashCode())
// note: we want to auto-close the storage after we write/read it
s1Build.use {
it["key1"] = tester
}
Assert.assertFalse(s1Build == s2Build)
Assert.assertFalse(s1Build.hashCode() == s2Build.hashCode())
}
@Test
fun property() {
val tmp = tmp().newFile()
val tester = Tester("key1", "value1")
// lambda's do NOT evaluate equality. Only reference equality.
val serializer = SerializerBytes {
register(Tester::class.java, TesterSerializer())
}
// note: we want to auto-close the storage after we write/read it
val storage = Storage.Property().file(tmp).serializer(serializer).build()
storage.use {
it["key1"] = tester
}
val storage2 = Storage.Property().file(tmp).serializer(serializer).build()
val tes: Tester? = storage2.use {
it["key1"]
}
Assert.assertTrue(tes == tester)
}
@Test
fun propertyFilesAreEqual() {
val tmp1 = tmp().newFile()
val tmp2 = tmp().newFile()
val tester = Tester("key1", "value1")
// lambda's do NOT evaluate equality. Only reference equality.
val serializer = SerializerBytes {
register(Tester::class.java, TesterSerializer())
}
// note: we want to auto-close the storage after we write/read it
val storage1 = Storage.Property().file(tmp1).serializer(serializer).build()
storage1.use {
it["key1"] = tester
}
val storage2 = Storage.Property().file(tmp2).serializer(serializer).build()
storage2.use {
it["key1"] = tester
}
// have to filter on the date, because that could be different.
// everything else must be the same though
val lines1 = tmp1.readLines().filter { !it.startsWith("#") || it.startsWith("#Storage") }
val lines2 = tmp1.readLines().filter { !it.startsWith("#") || it.startsWith("#Storage") }
Assert.assertTrue(lines1 == lines2)
}
@Test
fun propertyStoreReadOnlyDB() {
System.setProperty("kryo.unsafe", "false")
val tmp = tmp().newFile()
// note: we want to auto-close the storage after we write/read it
var storage = Storage.Property().file(tmp).readOnly().build()
try {
storage.use {
it["key1"] = 0
}
} catch (e: Exception) {
Assert.fail("exception should not be thrown!")
}
storage = Storage.Property().file(tmp).readOnlyThrowExceptions().build()
try {
storage.use {
it["key1"] = 0
}
Assert.fail("no exception thrown!")
} catch (e: Exception) {
}
}
@Test
fun propertyEqualityAndHash() {
val tmp1 = tmp().newFile()
val tmp2 = tmp().newFile()
val tester = Tester("key1", "value1")
// lambda's do NOT evaluate equality. Only reference equality.
val serializer = SerializerBytes {
register(Tester::class.java, TesterSerializer())
}
val s1 = Storage.Property().file(tmp1).serializer(serializer)
val s2 = Storage.Property().file(tmp1).serializer(serializer)
val s3 = Storage.Property().file(tmp2).serializer(serializer)
val s4 = Storage.Property().file(tmp2).serializer(SerializerBytes {
register(Tester::class.java, TesterSerializer())
})
Assert.assertTrue(s1 == s2)
Assert.assertFalse(s1 == s3)
Assert.assertFalse(s3 == s4)
Assert.assertTrue(s1.hashCode() == s2.hashCode())
Assert.assertFalse(s1.hashCode() == s3.hashCode())
Assert.assertFalse(s3.hashCode() == s4.hashCode())
val s1Build = s1.build()
val s2Build = s2.build()
val s3Build = s3.build()
val s4Build = s4.build()
Assert.assertTrue(s1Build == s2Build)
Assert.assertFalse(s1Build == s3Build)
Assert.assertFalse(s3Build == s4Build)
Assert.assertTrue(s1Build.hashCode() == s2Build.hashCode())
Assert.assertFalse(s1Build.hashCode() == s3Build.hashCode())
Assert.assertFalse(s3Build.hashCode() == s4Build.hashCode())
// note: we want to auto-close the storage after we write/read it
s1Build.use {
it["key1"] = tester
}
Assert.assertFalse(s1Build == s2Build)
Assert.assertFalse(s1Build.hashCode() == s2Build.hashCode())
}
// @Test
// fun json() {
// val tmp = tmp().newFile()
//
// val tester = Tester("key1", "value1")
//
// // note: we want to auto-close the storage after we write/read it
// val storage = Storage.Json().file(tmp).register(Tester::class.java, TesterSerializer()).build()
// storage.use {
// it["key1"] = tester
// }
//
//
// val storage2 = Storage.Property().file(tmp).register(Tester::class.java, TesterSerializer()).build()
//
// val tes: Tester? = storage2.use {
// it["key1"]
// }
//
// Assert.assertTrue(tes == tester)
// }
// @Test
// fun testCreateDB() {
// // val store = Storage.Memory().build()
// StorageSystem.shutdown()
// StorageSystem.delete(TEST_DB)
// var storage: Storage = StorageSystem.Disk().file(TEST_DB).build()
// val numberOfRecords1 = storage.size()
// val size1: Long = storage.getFileSize()
// Assert.assertEquals("count is not correct", 0, numberOfRecords1.toLong())
// Assert.assertEquals("size is not correct", initialSize, size1)
// storage.close()
// storage = StorageSystem.Disk().file(TEST_DB).build()
// val numberOfRecords2 = storage.size()
// val size2: Long = storage.getFileSize()
// Assert.assertEquals("Record count is not the same", numberOfRecords1.toLong(), numberOfRecords2.toLong())
// Assert.assertEquals("size is not the same", size1, size2)
// StorageSystem.close(storage)
// }
// @Test
// fun testAddAsOne() {
// try {
// var storage: Storage = StorageSystem.Disk().file(TEST_DB).build()
// for (i in 0 until total) {
// add(storage, i)
// }
// StorageSystem.close(storage)
// storage = StorageSystem.Disk().file(TEST_DB).build()
// for (i in 0 until total) {
// val record1Data = createData(i)
// val readRecord = readRecord(storage, i)
// Assert.assertEquals("Object is not the same", record1Data, readRecord)
// }
// StorageSystem.close(storage)
// } catch (e: Exception) {
// e.printStackTrace()
// Assert.fail("Error!")
// }
// }
//
// /**
// * Adds data to storage using the SAME key each time (so each entry is overwritten).
// */
// @Test
// fun testAddNoKeyRecords() {
// try {
// var storage: Storage = StorageSystem.Disk().file(TEST_DB).build()
// val storageKey = StorageKey("foobar!")
// for (i in 0 until total) {
// log("adding record $i...")
// val addRecord = createData(i)
// storage.put(storageKey, addRecord)
// log("reading record $i...")
// val readData: String = storage.get(storageKey)!!
// Assert.assertEquals("Object is not the same", addRecord, readData)
// }
// StorageSystem.close(storage)
// storage = StorageSystem.Disk().file(TEST_DB).build()
// val dataCheck = createData(total - 1)
// log("reading record " + (total - 1) + "...")
// val readData: String = storage.get(storageKey)
//
// // the ONLY entry in storage should be the last one that we added
// Assert.assertEquals("Object is not the same", dataCheck, readData)
// val numberOfRecords1 = storage.size()
// val size1: Long = storage.getFileSize()
// Assert.assertEquals("count is not correct", numberOfRecords1.toLong(), 1)
// Assert.assertEquals("size is not correct", size1, initialSize + sizePerRecord)
// StorageSystem.close(storage)
// } catch (e: Exception) {
// e.printStackTrace()
// Assert.fail("Error!")
// }
// }
//
// @Test
// fun testAddRecords_DelaySaveA() {
// try {
// var storage: Storage = StorageSystem.Disk().file(TEST_DB).build()
// for (i in 0 until total) {
// add(storage, i)
// }
// synchronized(Thread.currentThread()) {
// Thread.currentThread().wait(storage.getSaveDelay() + 1000L)
// }
// for (i in 0 until total) {
// val record1Data = createData(i)
// val readRecord = readRecord(storage, i)
// Assert.assertEquals("Object is not the same", record1Data, readRecord)
// }
// StorageSystem.close(storage)
// storage = StorageSystem.Disk().file(TEST_DB).build()
// for (i in 0 until total) {
// val dataCheck = createData(i)
// val readRecord = readRecord(storage, i)
// Assert.assertEquals("Object is not the same", dataCheck, readRecord)
// }
// StorageSystem.close(storage)
// } catch (e: Exception) {
// e.printStackTrace()
// Assert.fail("Error!")
// }
// }
//
// @Test
// fun testAddRecords_DelaySaveB() {
// try {
// var storage: Storage = StorageSystem.Disk().file(TEST_DB).build()
// for (i in 0 until total) {
// add(storage, i)
// }
// for (i in 0 until total) {
// val record1Data = createData(i)
// val readRecord = readRecord(storage, i)
// Assert.assertEquals("Object is not the same", record1Data, readRecord)
// }
// StorageSystem.close(storage)
// storage = StorageSystem.Disk().file(TEST_DB).build()
// for (i in 0 until total) {
// val dataCheck = createData(i)
// val readRecord = readRecord(storage, i)
// Assert.assertEquals("Object is not the same", dataCheck, readRecord)
// }
// StorageSystem.close(storage)
// } catch (e: Exception) {
// e.printStackTrace()
// Assert.fail("Error!")
// }
// }
//
// @Test
// fun testLoadRecords() {
// try {
// var storage: Storage = StorageSystem.Disk().file(TEST_DB).register(Data::class.java).build()
// for (i in 0 until total) {
// val addRecord = add(storage, i)
// val readRecord = readRecord(storage, i)
// Assert.assertEquals("Object is not the same", addRecord, readRecord)
// }
// StorageSystem.close(storage)
// storage = StorageSystem.Disk().file(TEST_DB).register(Data::class.java).build()
// for (i in 0 until total) {
// val dataCheck = createData(i)
// val readRecord = readRecord(storage, i)
// Assert.assertEquals("Object is not the same", dataCheck, readRecord)
// }
//
// // now test loading data
// val data = Data()
// val createKey: StorageKey = createKey(63)
// makeData(data)
// storage.put(createKey, data)
// var data2: Data
// data2 = storage.get(createKey, Data())
// Assert.assertEquals("Object is not the same", data, data2)
// StorageSystem.close(storage)
// storage = StorageSystem.Disk().file(TEST_DB).register(Data::class.java).build()
// data2 = storage.get(createKey, Data())
// Assert.assertEquals("Object is not the same", data, data2)
// StorageSystem.close(storage)
// } catch (e: Exception) {
// e.printStackTrace()
// Assert.fail("Error!")
// }
// }
//
// @Test
// @Throws(IOException::class)
// fun testAddRecordsDelete1Record() {
// if (total < 4) {
// throw IOException("Unable to run test with too few entries.")
// }
// try {
// var storage: Storage = StorageSystem.Disk().file(TEST_DB).register(Data::class.java).build()
// for (i in 0 until total) {
// val addRecord = add(storage, i)
// val readRecord = readRecord(storage, i)
// Assert.assertEquals("Object is not the same", addRecord, readRecord)
// }
// StorageSystem.close(storage)
// storage = StorageSystem.Disk().file(TEST_DB).register(Data::class.java).build()
// for (i in 0 until total) {
// val dataCheck = createData(i)
// val readRecord = readRecord(storage, i)
// Assert.assertEquals("Object is not the same", dataCheck, readRecord)
// }
//
// // make sure now that we can delete one of the records.
// deleteRecord(storage, 3)
// var readRecord = readRecord(storage, 9)
// var dataCheck = createData(9)
// Assert.assertEquals("Object is not the same", dataCheck, readRecord)
// if (storage.contains(createKey(3))) {
// Assert.fail("record NOT successfully deleted.")
// }
//
// // now we add 3 back
// val addRecord = add(storage, 3)
// dataCheck = createData(3)
// Assert.assertEquals("Object is not the same", dataCheck, addRecord)
// StorageSystem.close(storage)
// storage = StorageSystem.Disk().file(TEST_DB).register(Data::class.java).build()
//
// // check 9 again
// readRecord = readRecord(storage, 9)
// dataCheck = createData(9)
// Assert.assertEquals("Object is not the same", dataCheck, readRecord)
//
// // check 3 again
// readRecord = readRecord(storage, 3)
// dataCheck = createData(3)
// Assert.assertEquals("Object is not the same", dataCheck, readRecord)
// } catch (e: Exception) {
// e.printStackTrace()
// Assert.fail("Error!")
// }
// }
//
// @Test
// fun testUpdateRecords() {
// try {
// var storage: Storage = StorageSystem.Disk().file(TEST_DB).register(Data::class.java).build()
// for (i in 0 until total) {
// val addRecord = add(storage, i)
// val readRecord = readRecord(storage, i)
// Assert.assertEquals("Object is not the same", addRecord, readRecord)
// }
// StorageSystem.close(storage)
// storage = StorageSystem.Disk().file(TEST_DB).register(Data::class.java).build()
// var updateRecord = updateRecord(storage, 3, createData(3) + "new")
// var readRecord = readRecord(storage, 3)
// Assert.assertEquals("Object is not the same", updateRecord, readRecord)
// StorageSystem.close(storage)
// storage = StorageSystem.Disk().file(TEST_DB).register(Data::class.java).build()
// readRecord = readRecord(storage, 3)
// Assert.assertEquals("Object is not the same", updateRecord, readRecord)
// updateRecord = updateRecord(storage, 3, createData(3))
// StorageSystem.close(storage)
// storage = StorageSystem.Disk().file(TEST_DB).register(Data::class.java).build()
// readRecord = readRecord(storage, 3)
// Assert.assertEquals("Object is not the same", updateRecord, readRecord)
// StorageSystem.close(storage)
// storage = StorageSystem.Disk().file(TEST_DB).register(Data::class.java).build()
// updateRecord = updateRecord(storage, 0, createData(0) + "new")
// readRecord = readRecord(storage, 0)
// Assert.assertEquals("Object is not the same", updateRecord, readRecord)
// StorageSystem.close(storage)
// } catch (e: Exception) {
// e.printStackTrace()
// Assert.fail("Error!")
// }
// }
//
// @Test
// fun testSaveAllRecords() {
// try {
// var storage: Storage = StorageSystem.Disk().file(TEST_DB).register(Data::class.java).build()
// for (i in 0 until total) {
// val data = Data()
// makeData(data)
// val createKey: StorageKey = createKey(i)
// storage.put(createKey, data)
// }
// StorageSystem.close(storage)
// val data = Data()
// makeData(data)
// storage = StorageSystem.Disk().file(TEST_DB).register(Data::class.java).build()
// for (i in 0 until total) {
// val createKey: StorageKey = createKey(i)
// var data2: Data
// data2 = storage.get(createKey, Data())
// Assert.assertEquals("Object is not the same", data, data2)
// }
// StorageSystem.close(storage)
// } catch (e: Exception) {
// e.printStackTrace()
// Assert.fail("Error!")
// }
// }
//
// class Data {
// var string: String? = null
// var strings: Array<String?>
// var ints: IntArray
// var shorts: ShortArray
// var floats: FloatArray
// var doubles: DoubleArray
// var longs: LongArray
// var bytes: ByteArray
// var chars: CharArray
// var booleans: BooleanArray
// var Ints: Array<Int>
// var Shorts: Array<Short>
// var Floats: Array<Float>
// var Doubles: Array<Double>
// var Longs: Array<Long>
// var Bytes: Array<Byte>
// var Chars: Array<Char>
// var Booleans: Array<Boolean>
// override fun hashCode(): Int {
// val prime = 31
// var result = 1
// result = prime * result + Arrays.hashCode(Booleans)
// result = prime * result + Arrays.hashCode(Bytes)
// result = prime * result + Arrays.hashCode(Chars)
// result = prime * result + Arrays.hashCode(Doubles)
// result = prime * result + Arrays.hashCode(Floats)
// result = prime * result + Arrays.hashCode(Ints)
// result = prime * result + Arrays.hashCode(Longs)
// result = prime * result + Arrays.hashCode(Shorts)
// result = prime * result + Arrays.hashCode(booleans)
// result = prime * result + Arrays.hashCode(bytes)
// result = prime * result + Arrays.hashCode(chars)
// result = prime * result + Arrays.hashCode(doubles)
// result = prime * result + Arrays.hashCode(floats)
// result = prime * result + Arrays.hashCode(ints)
// result = prime * result + Arrays.hashCode(longs)
// result = prime * result + Arrays.hashCode(shorts)
// result = prime * result + if (string == null) 0 else string.hashCode()
// result = prime * result + Arrays.hashCode(strings)
// return result
// }
//
// override fun equals(obj: Any?): Boolean {
// if (this === obj) {
// return true
// }
// if (obj == null) {
// return false
// }
// if (javaClass != obj.javaClass) {
// return false
// }
// val other = obj as Data
// if (!Arrays.equals(Booleans, other.Booleans)) {
// return false
// }
// if (!Arrays.equals(Bytes, other.Bytes)) {
// return false
// }
// if (!Arrays.equals(Chars, other.Chars)) {
// return false
// }
// if (!Arrays.equals(Doubles, other.Doubles)) {
// return false
// }
// if (!Arrays.equals(Floats, other.Floats)) {
// return false
// }
// if (!Arrays.equals(Ints, other.Ints)) {
// return false
// }
// if (!Arrays.equals(Longs, other.Longs)) {
// return false
// }
// if (!Arrays.equals(Shorts, other.Shorts)) {
// return false
// }
// if (!Arrays.equals(booleans, other.booleans)) {
// return false
// }
// if (!Arrays.equals(bytes, other.bytes)) {
// return false
// }
// if (!Arrays.equals(chars, other.chars)) {
// return false
// }
// if (!Arrays.equals(doubles, other.doubles)) {
// return false
// }
// if (!Arrays.equals(floats, other.floats)) {
// return false
// }
// if (!Arrays.equals(ints, other.ints)) {
// return false
// }
// if (!Arrays.equals(longs, other.longs)) {
// return false
// }
// if (!Arrays.equals(shorts, other.shorts)) {
// return false
// }
// if (string == null) {
// if (other.string != null) {
// return false
// }
// } else if (string != other.string) {
// return false
// }
// return if (!Arrays.equals(strings, other.strings)) {
// false
// } else true
// }
//
// override fun toString(): String {
// return "Data"
// }
// }
//
// companion object {
// var total = 10
//
// // the initial size is specified during disk.storage construction, and is based on the number of padded records.
// private const val initialSize = 1024L
//
// // this is the size for each record (determined by looking at the output when writing the file)
// private const val sizePerRecord = 23
// private val TEST_DB = File("sampleFile.records")
// fun log(s: String?) {
// System.err.println(s)
// }
//
// private fun createData(number: Int): String {
// return "$number data for record # $number"
// }
//
// fun add(storage: Storage, number: Int): String {
// val record1Data = createData(number)
// val record1Key: StorageKey = createKey(number)
// log("adding record $number...")
// storage.put(record1Key, record1Data)
// return record1Data
// }
//
// fun readRecord(storage: Storage, number: Int): String {
// val record1Key: StorageKey = createKey(number)
// log("reading record $number...")
// val readData: String = storage.get(record1Key)!!
// log("\trecord $number data: '$readData'")
// return readData
// }
//
// fun deleteRecord(storage: Storage, nNumber: Int) {
// val record1Key: StorageKey = createKey(nNumber)
// log("deleting record $nNumber...")
// storage.delete(record1Key)
// }
//
// private fun updateRecord(storage: Storage, number: Int, newData: String): String {
// val record1Key: StorageKey = createKey(number)
// log("updating record $number...")
// storage.put(record1Key, newData)
// return newData
// }
//
// private fun createKey(number: Int): StorageKey {
// return StorageKey("foo$number")
// }
//
// // from kryo unit test.
// private fun makeData(data: Data) {
// val buffer = StringBuilder(128)
// for (i in 0..2) {
// buffer.append('a')
// }
// data.string = buffer.toString()
// data.strings = arrayOf("ab012", "", null, "!@#$", "<22><><EFBFBD><EFBFBD><EFBFBD>")
// data.ints = intArrayOf(-1234567, 1234567, -1, 0, 1, Int.MAX_VALUE, Int.MIN_VALUE)
// data.shorts = shortArrayOf(
// (-12345).toShort(),
// 12345.toShort(),
// (-1).toShort(),
// 0.toShort(),
// 1.toShort(),
// Short.MAX_VALUE,
// Short.MIN_VALUE
// )
// data.floats =
// floatArrayOf(0f, -0f, 1f, -1f, 123456f, -123456f, 0.1f, 0.2f, -0.3f, Math.PI.toFloat(), Float.MAX_VALUE, Float.MIN_VALUE)
// data.doubles =
// doubleArrayOf(0.0, -0.0, 1.0, -1.0, 123456.0, -123456.0, 0.1, 0.2, -0.3, Math.PI, Double.MAX_VALUE, Double.MIN_VALUE)
// data.longs = longArrayOf(0, -0, 1, -1, 123456, -123456, 99999999999L, -99999999999L, Long.MAX_VALUE, Long.MIN_VALUE)
// data.bytes = byteArrayOf((-123).toByte(), 123.toByte(), (-1).toByte(), 0.toByte(), 1.toByte(), Byte.MAX_VALUE, Byte.MIN_VALUE)
// data.chars =
// charArrayOf(32345.toChar(), 12345.toChar(), 0.toChar(), 1.toChar(), 63.toChar(), Character.MAX_VALUE, Character.MIN_VALUE)
// data.booleans = booleanArrayOf(true, false)
// data.Ints = arrayOf(-1234567, 1234567, -1, 0, 1, Int.MAX_VALUE, Int.MIN_VALUE)
// data.Shorts = arrayOf(-12345, 12345, -1, 0, 1, Short.MAX_VALUE, Short.MIN_VALUE)
// data.Floats = arrayOf(
// 0.0f,
// -0.0f,
// 1.0f,
// -1.0f,
// 123456.0f,
// -123456.0f,
// 0.1f,
// 0.2f,
// -0.3f,
// Math.PI.toFloat(),
// Float.MAX_VALUE,
// Float.MIN_VALUE
// )
// data.Doubles = arrayOf(0.0, -0.0, 1.0, -1.0, 123456.0, -123456.0, 0.1, 0.2, -0.3, Math.PI, Double.MAX_VALUE, Double.MIN_VALUE)
// data.Longs = arrayOf(0L, -0L, 1L, -1L, 123456L, -123456L, 99999999999L, -99999999999L, Long.MAX_VALUE, Long.MIN_VALUE)
// data.Bytes = arrayOf(-123, 123, -1, 0, 1, Byte.MAX_VALUE, Byte.MIN_VALUE)
// data.Chars = arrayOf(32345, 12345, 0, 1, 63, Character.MAX_VALUE, Character.MIN_VALUE)
// data.Booleans = arrayOf(true, false)
// }
// }
}
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