Durum koruma ve kalıcı depolama
Koleksiyonlar ile düzeninizi koruyun
İçeriği tercihlerinize göre kaydedin ve kategorilere ayırın.
Jetpack Compose
Jetpack Compose'da kullanıcı arayüzü durumu genellikle remember ve rememberSaveable kullanılarak yönetilir.
rememberSaveable, yapılandırma değişikliklerinde otomatik durum koruması sunsa da yerleşik özellikleri, Parcelable veya Serializable uygulayan ilkel veri türleri ve nesnelerle sınırlıdır.
Karmaşık iç içe yerleştirilmiş yapıları ve özellikleri içerebilen Brush gibi özel nesneler için açık serileştirme ve seri bozma mekanizmaları gereklidir. Bu noktada özel durum kaydedicinin faydası ortaya çıkar. Özel bir değer tanımlayarak
Şunun için Saver:
Brush nesnesini tanımlarken
verilen örnekte gösterildiği gibi, brushStateSaver
Converterssınırlandırarak
yapılandırma değiştiğinde bile fırçanın temel özelliklerinin korunması
meydana gelir.
fun brushStateSaver(converters: Converters): Saver<MutableState<Brush>, String> = Saver(
save = { state ->
converters.brushToString(state.value)
},
restore = { jsonString ->
val brush = converters.stringToBrush(jsonString)
mutableStateOf(brush)
}
)
Ardından, kullanıcının seçtiği fırça durumunu korumak için özel Saver öğesini aşağıdaki gibi kullanabilirsiniz:
val converters = Converters()
val currentBrush = rememberSaveable(saver = brushStateSaver(converters)) { mutableStateOf(defaultBrush) }
Kalıcı depolama alanı
Doküman kaydetme, yükleme ve potansiyel gerçek zamanlı görüntüleme gibi özellikleri etkinleştirmek için
ortak çalışma, mağaza darbeleri ve ilişkili verileri serileştirilmiş biçimde sunar. Mürekkep API'si için manuel serileştirme ve seri bozma gerekir.
Bir çizgiyi doğru şekilde geri yüklemek için Brush ve [StrokeInputBatch] değerlerini kaydedin.
Temel serileştirme
Mürekkep kitaplığı nesnelerini yansıtan bir serileştirme nesnesi yapısı tanımlayın.
Gson, Moshi gibi tercih ettiğiniz çerçeveyi kullanarak serileştirilmiş verileri kodlayın.
ve diğerleri ve optimizasyon için sıkıştırmayı kullanabilirsiniz.
data class SerializedStroke(
val inputs: SerializedStrokeInputBatch,
val brush: SerializedBrush
)
data class SerializedBrush(
val size: Float,
val color: Long,
val epsilon: Float,
val stockBrush: SerializedStockBrush
)
enum class SerializedStockBrush {
MARKER_V1,
PRESSURE_PEN_V1,
HIGHLIGHTER_V1
}
data class SerializedStrokeInputBatch(
val toolType: SerializedToolType,
val strokeUnitLengthCm: Float,
val inputs: List<SerializedStrokeInput>
)
data class SerializedStrokeInput(
val x: Float,
val y: Float,
val timeMillis: Float,
val pressure: Float,
val tiltRadians: Float,
val orientationRadians: Float,
val strokeUnitLengthCm: Float
)
enum class SerializedToolType {
STYLUS,
TOUCH,
MOUSE,
UNKNOWN
}
class Converters {
private val gson: Gson = GsonBuilder().create()
companion object {
private val stockBrushToEnumValues =
mapOf(
StockBrushes.markerV1 to SerializedStockBrush.MARKER_V1,
StockBrushes.pressurePenV1 to SerializedStockBrush.PRESSURE_PEN_V1,
StockBrushes.highlighterV1 to SerializedStockBrush.HIGHLIGHTER_V1,
)
private val enumToStockBrush =
stockBrushToEnumValues.entries.associate { (key, value) -> value to key }
}
private fun serializeBrush(brush: Brush): SerializedBrush {
return SerializedBrush(
size = brush.size,
color = brush.colorLong,
epsilon = brush.epsilon,
stockBrush = stockBrushToEnumValues[brush.family] ?: SerializedStockBrush.MARKER_V1,
)
}
private fun serializeStrokeInputBatch(inputs: StrokeInputBatch): SerializedStrokeInputBatch {
val serializedInputs = mutableListOf<SerializedStrokeInput>()
val scratchInput = StrokeInput()
for (i in 0 until inputs.size) {
inputs.populate(i, scratchInput)
serializedInputs.add(
SerializedStrokeInput(
x = scratchInput.x,
y = scratchInput.y,
timeMillis = scratchInput.elapsedTimeMillis.toFloat(),
pressure = scratchInput.pressure,
tiltRadians = scratchInput.tiltRadians,
orientationRadians = scratchInput.orientationRadians,
strokeUnitLengthCm = scratchInput.strokeUnitLengthCm,
)
)
}
val toolType =
when (inputs.getToolType()) {
InputToolType.STYLUS -> SerializedToolType.STYLUS
InputToolType.TOUCH -> SerializedToolType.TOUCH
InputToolType.MOUSE -> SerializedToolType.MOUSE
else -> SerializedToolType.UNKNOWN
}
return SerializedStrokeInputBatch(
toolType = toolType,
strokeUnitLengthCm = inputs.getStrokeUnitLengthCm(),
inputs = serializedInputs,
)
}
private fun deserializeStroke(serializedStroke: SerializedStroke): Stroke? {
val inputs = deserializeStrokeInputBatch(serializedStroke.inputs) ?: return null
val brush = deserializeBrush(serializedStroke.brush) ?: return null
return Stroke(brush = brush, inputs = inputs)
}
private fun deserializeBrush(serializedBrush: SerializedBrush): Brush {
val stockBrushFamily = enumToStockBrush[serializedBrush.stockBrush] ?: StockBrushes.markerV1
return Brush.createWithColorLong(
family = stockBrushFamily,
colorLong = serializedBrush.color,
size = serializedBrush.size,
epsilon = serializedBrush.epsilon,
)
}
private fun deserializeStrokeInputBatch(
serializedBatch: SerializedStrokeInputBatch
): StrokeInputBatch {
val toolType =
when (serializedBatch.toolType) {
SerializedToolType.STYLUS -> InputToolType.STYLUS
SerializedToolType.TOUCH -> InputToolType.TOUCH
SerializedToolType.MOUSE -> InputToolType.MOUSE
else -> InputToolType.UNKNOWN
}
val batch = MutableStrokeInputBatch()
serializedBatch.inputs.forEach { input ->
batch.addOrThrow(
type = toolType,
x = input.x,
y = input.y,
elapsedTimeMillis = input.timeMillis.toLong(),
pressure = input.pressure,
tiltRadians = input.tiltRadians,
orientationRadians = input.orientationRadians,
)
}
return batch
}
fun serializeStrokeToEntity(stroke: Stroke): StrokeEntity {
val serializedBrush = serializeBrush(stroke.brush)
val serializedInputs = serializeStrokeInputBatch(stroke.inputs)
return StrokeEntity(
brushSize = serializedBrush.size,
brushColor = serializedBrush.color,
brushEpsilon = serializedBrush.epsilon,
stockBrush = serializedBrush.stockBrush,
strokeInputs = gson.toJson(serializedInputs),
)
}
fun deserializeEntityToStroke(entity: StrokeEntity): Stroke {
val serializedBrush =
SerializedBrush(
size = entity.brushSize,
color = entity.brushColor,
epsilon = entity.brushEpsilon,
stockBrush = entity.stockBrush,
)
val serializedInputs =
gson.fromJson(entity.strokeInputs, SerializedStrokeInputBatch::class.java)
val brush = deserializeBrush(serializedBrush)
val inputs = deserializeStrokeInputBatch(serializedInputs)
return Stroke(brush = brush, inputs = inputs)
}
fun brushToString(brush: Brush): String {
val serializedBrush = serializeBrush(brush)
return gson.toJson(serializedBrush)
}
fun stringToBrush(jsonString: String): Brush {
val serializedBrush = gson.fromJson(jsonString, SerializedBrush::class.java)
return deserializeBrush(serializedBrush)
}
}
Bu sayfadaki içerik ve kod örnekleri, İçerik Lisansı sayfasında açıklanan lisanslara tabidir. Java ve OpenJDK, Oracle ve/veya satış ortaklarının tescilli ticari markasıdır.
Son güncelleme tarihi: 2025-07-27 UTC.
[[["Anlaması kolay","easyToUnderstand","thumb-up"],["Sorunumu çözdü","solvedMyProblem","thumb-up"],["Diğer","otherUp","thumb-up"]],[["İhtiyacım olan bilgiler yok","missingTheInformationINeed","thumb-down"],["Çok karmaşık / çok fazla adım var","tooComplicatedTooManySteps","thumb-down"],["Güncel değil","outOfDate","thumb-down"],["Çeviri sorunu","translationIssue","thumb-down"],["Örnek veya kod sorunu","samplesCodeIssue","thumb-down"],["Diğer","otherDown","thumb-down"]],["Son güncelleme tarihi: 2025-07-27 UTC."],[],[],null,["# State preservation and persistent storage\n\nJetpack Compose\n---------------\n\nIn Jetpack Compose, UI state is typically managed using\n[`remember`](/reference/kotlin/androidx/compose/runtime/package-summary#remember(kotlin.Function0))\nand\n[`rememberSaveable`](/reference/kotlin/androidx/compose/runtime/saveable/package-summary#rememberSaveable(kotlin.Array,androidx.compose.runtime.saveable.Saver,kotlin.String,kotlin.Function0)).\nWhile\n[`rememberSaveable`](/reference/kotlin/androidx/compose/runtime/saveable/package-summary#rememberSaveable(kotlin.Array,androidx.compose.runtime.saveable.Saver,kotlin.String,kotlin.Function0))\noffers automatic state preservation across configuration changes, its built-in\ncapabilities are limited to primitive data types and objects that implement\n[`Parcelable`](/reference/kotlin/android/os/Parcelable) or\n[`Serializable`](/reference/java/io/Serializable).\n\nFor custom objects such as\n[`Brush`](/reference/kotlin/androidx/ink/brush/Brush), which may encompass\nintricate nested structures and properties, explicit serialization and\ndeserialization mechanisms are necessary. This is where a custom state saver\nbecomes useful. By defining a custom\n[`Saver`](/reference/kotlin/androidx/compose/runtime/saveable/Saver) for\nthe `Brush` object, as\ndemonstrated in the provided example with `brushStateSaver`using the example\n`Converters`class, you can guarantee the\npreservation of the brush's essential attributes even when configuration changes\noccur. \n\n fun brushStateSaver(converters: Converters): Saver\u003cMutableState\u003cBrush\u003e, String\u003e = Saver(\n save = { state -\u003e\n converters.brushToString(state.value)\n },\n restore = { jsonString -\u003e\n val brush = converters.stringToBrush(jsonString)\n mutableStateOf(brush)\n }\n )\n\nYou can then use the custom\n[`Saver`](/reference/kotlin/androidx/compose/runtime/saveable/Saver) to\npreserve a user's selected brush state like so: \n\n val converters = Converters()\n val currentBrush = rememberSaveable(saver = brushStateSaver(converters)) { mutableStateOf(defaultBrush) }\n\n### Persistent storage\n\nTo enable features such as document saving, loading, and potential real-time\ncollaboration, store strokes and associated data in a serialized format. For the\nInk API, manual serialization and deserialization are necessary.\n\nTo accurately restore a stroke, save its`Brush` and \\[`StrokeInputBatch`\\].\n\n- [**`Brush`**](/reference/kotlin/androidx/ink/brush/Brush): Includes numeric fields (size, epsilon), color, and [`BrushFamily`](/reference/kotlin/androidx/ink/brush/BrushFamily).\n- [**`StrokeInputBatch`**](/reference/kotlin/androidx/ink/strokes/StrokeInputBatch): Essentially a list of input points with numeric fields.\n\n#### Basic serialization\n\nDefine a serialization object structure that mirrors the Ink library objects.\n\nEncode the serialized data using your preferred framework like Gson, Moshi,\nProtobuf, and others, and use compression for optimization. \n\n data class SerializedStroke(\n val inputs: SerializedStrokeInputBatch,\n val brush: SerializedBrush\n )\n\n data class SerializedBrush(\n val size: Float,\n val color: Long,\n val epsilon: Float,\n val stockBrush: SerializedStockBrush\n )\n\n enum class SerializedStockBrush {\n MARKER_V1,\n PRESSURE_PEN_V1,\n HIGHLIGHTER_V1\n }\n\n data class SerializedStrokeInputBatch(\n val toolType: SerializedToolType,\n val strokeUnitLengthCm: Float,\n val inputs: List\u003cSerializedStrokeInput\u003e\n )\n\n data class SerializedStrokeInput(\n val x: Float,\n val y: Float,\n val timeMillis: Float,\n val pressure: Float,\n val tiltRadians: Float,\n val orientationRadians: Float,\n val strokeUnitLengthCm: Float\n )\n\n enum class SerializedToolType {\n STYLUS,\n TOUCH,\n MOUSE,\n UNKNOWN\n }\n\n class Converters {\n\n private val gson: Gson = GsonBuilder().create()\n\n companion object {\n private val stockBrushToEnumValues =\n mapOf(\n StockBrushes.markerV1 to SerializedStockBrush.MARKER_V1,\n StockBrushes.pressurePenV1 to SerializedStockBrush.PRESSURE_PEN_V1,\n StockBrushes.highlighterV1 to SerializedStockBrush.HIGHLIGHTER_V1,\n )\n\n private val enumToStockBrush =\n stockBrushToEnumValues.entries.associate { (key, value) -\u003e value to key }\n }\n\n private fun serializeBrush(brush: Brush): SerializedBrush {\n return SerializedBrush(\n size = brush.size,\n color = brush.colorLong,\n epsilon = brush.epsilon,\n stockBrush = stockBrushToEnumValues[brush.family] ?: SerializedStockBrush.MARKER_V1,\n )\n }\n\n private fun serializeStrokeInputBatch(inputs: StrokeInputBatch): SerializedStrokeInputBatch {\n val serializedInputs = mutableListOf\u003cSerializedStrokeInput\u003e()\n val scratchInput = StrokeInput()\n\n for (i in 0 until inputs.size) {\n inputs.populate(i, scratchInput)\n serializedInputs.add(\n SerializedStrokeInput(\n x = scratchInput.x,\n y = scratchInput.y,\n timeMillis = scratchInput.elapsedTimeMillis.toFloat(),\n pressure = scratchInput.pressure,\n tiltRadians = scratchInput.tiltRadians,\n orientationRadians = scratchInput.orientationRadians,\n strokeUnitLengthCm = scratchInput.strokeUnitLengthCm,\n )\n )\n }\n\n val toolType =\n when (inputs.getToolType()) {\n InputToolType.STYLUS -\u003e SerializedToolType.STYLUS\n InputToolType.TOUCH -\u003e SerializedToolType.TOUCH\n InputToolType.MOUSE -\u003e SerializedToolType.MOUSE\n else -\u003e SerializedToolType.UNKNOWN\n }\n\n return SerializedStrokeInputBatch(\n toolType = toolType,\n strokeUnitLengthCm = inputs.getStrokeUnitLengthCm(),\n inputs = serializedInputs,\n )\n }\n\n private fun deserializeStroke(serializedStroke: SerializedStroke): Stroke? {\n val inputs = deserializeStrokeInputBatch(serializedStroke.inputs) ?: return null\n val brush = deserializeBrush(serializedStroke.brush) ?: return null\n return Stroke(brush = brush, inputs = inputs)\n }\n\n private fun deserializeBrush(serializedBrush: SerializedBrush): Brush {\n val stockBrushFamily = enumToStockBrush[serializedBrush.stockBrush] ?: StockBrushes.markerV1\n\n return Brush.createWithColorLong(\n family = stockBrushFamily,\n colorLong = serializedBrush.color,\n size = serializedBrush.size,\n epsilon = serializedBrush.epsilon,\n )\n }\n\n private fun deserializeStrokeInputBatch(\n serializedBatch: SerializedStrokeInputBatch\n ): StrokeInputBatch {\n val toolType =\n when (serializedBatch.toolType) {\n SerializedToolType.STYLUS -\u003e InputToolType.STYLUS\n SerializedToolType.TOUCH -\u003e InputToolType.TOUCH\n SerializedToolType.MOUSE -\u003e InputToolType.MOUSE\n else -\u003e InputToolType.UNKNOWN\n }\n\n val batch = MutableStrokeInputBatch()\n\n serializedBatch.inputs.forEach { input -\u003e\n batch.addOrThrow(\n type = toolType,\n x = input.x,\n y = input.y,\n elapsedTimeMillis = input.timeMillis.toLong(),\n pressure = input.pressure,\n tiltRadians = input.tiltRadians,\n orientationRadians = input.orientationRadians,\n )\n }\n\n return batch\n }\n\n fun serializeStrokeToEntity(stroke: Stroke): StrokeEntity {\n val serializedBrush = serializeBrush(stroke.brush)\n val serializedInputs = serializeStrokeInputBatch(stroke.inputs)\n return StrokeEntity(\n brushSize = serializedBrush.size,\n brushColor = serializedBrush.color,\n brushEpsilon = serializedBrush.epsilon,\n stockBrush = serializedBrush.stockBrush,\n strokeInputs = gson.toJson(serializedInputs),\n )\n }\n\n fun deserializeEntityToStroke(entity: StrokeEntity): Stroke {\n val serializedBrush =\n SerializedBrush(\n size = entity.brushSize,\n color = entity.brushColor,\n epsilon = entity.brushEpsilon,\n stockBrush = entity.stockBrush,\n )\n\n val serializedInputs =\n gson.fromJson(entity.strokeInputs, SerializedStrokeInputBatch::class.java)\n\n val brush = deserializeBrush(serializedBrush)\n val inputs = deserializeStrokeInputBatch(serializedInputs)\n\n return Stroke(brush = brush, inputs = inputs)\n }\n\n fun brushToString(brush: Brush): String {\n val serializedBrush = serializeBrush(brush)\n return gson.toJson(serializedBrush)\n }\n\n fun stringToBrush(jsonString: String): Brush {\n val serializedBrush = gson.fromJson(jsonString, SerializedBrush::class.java)\n return deserializeBrush(serializedBrush)\n }\n\n }"]]
