composed
Functions summary
Modifier |
Modifier.composed(Declare a just-in-time composition of a |
Cmn
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Modifier |
Modifier.composed(Declare a just-in-time composition of a |
Cmn
|
Modifier |
Modifier.composed(Declare a just-in-time composition of a |
Cmn
|
Modifier |
Modifier.composed(Declare a just-in-time composition of a |
Cmn
|
Modifier |
Modifier.composed(Declare a just-in-time composition of a |
Cmn
|
Functions
Modifier.composed
fun Modifier.composed(
inspectorInfo: InspectorInfo.() -> Unit = NoInspectorInfo,
factory: @Composable Modifier.() -> Modifier
): Modifier
Declare a just-in-time composition of a Modifier that will be composed for each element it modifies. composed may be used to implement stateful modifiers that have instance-specific state for each modified element, allowing the same Modifier instance to be safely reused for multiple elements while maintaining element-specific state.
If inspectorInfo is specified this modifier will be visible to tools during development. Specify the name and arguments of the original modifier.
Example usage:
import androidx.compose.ui.Modifier import androidx.compose.ui.composed import androidx.compose.ui.graphics.Color import androidx.compose.ui.platform.debugInspectorInfo // let's create your own custom stateful modifier fun Modifier.myColorModifier(color: Color) = composed( // pass inspector information for debug inspectorInfo = debugInspectorInfo { // name should match the name of the modifier name = "myColorModifier" // specify a single argument as the value when the argument name is irrelevant value = color }, // pass your modifier implementation that resolved per modified element factory = { // add your modifier implementation here Modifier }, )
import androidx.compose.ui.Modifier import androidx.compose.ui.composed import androidx.compose.ui.graphics.Color import androidx.compose.ui.platform.debugInspectorInfo import androidx.compose.ui.unit.Dp // let's create your own custom stateful modifier with multiple arguments fun Modifier.myModifier(width: Dp, height: Dp, color: Color) = composed( // pass inspector information for debug inspectorInfo = debugInspectorInfo { // name should match the name of the modifier name = "myModifier" // add name and value of each argument properties["width"] = width properties["height"] = height properties["color"] = color }, // pass your modifier implementation that resolved per modified element factory = { // add your modifier implementation here Modifier }, )
materialize must be called to create instance-specific modifiers if you are directly applying a Modifier to an element tree node.
Modifier.composed
fun Modifier.composed(
fullyQualifiedName: String,
key1: Any?,
inspectorInfo: InspectorInfo.() -> Unit = NoInspectorInfo,
factory: @Composable Modifier.() -> Modifier
): Modifier
Declare a just-in-time composition of a Modifier that will be composed for each element it modifies. composed may be used to implement stateful modifiers that have instance-specific state for each modified element, allowing the same Modifier instance to be safely reused for multiple elements while maintaining element-specific state.
When keys are provided, composed produces a Modifier that will compare equals to another modifier constructed with the same keys in order to take advantage of caching and skipping optimizations. fullyQualifiedName should be the fully-qualified import name for your modifier factory function, e.g. com.example.myapp.ui.fancyPadding.
If inspectorInfo is specified this modifier will be visible to tools during development. Specify the name and arguments of the original modifier.
Example usage:
import androidx.compose.ui.Modifier import androidx.compose.ui.composed import androidx.compose.ui.graphics.Color import androidx.compose.ui.platform.debugInspectorInfo // let's create your own custom stateful modifier fun Modifier.myColorModifier(color: Color) = composed( // pass inspector information for debug inspectorInfo = debugInspectorInfo { // name should match the name of the modifier name = "myColorModifier" // specify a single argument as the value when the argument name is irrelevant value = color }, // pass your modifier implementation that resolved per modified element factory = { // add your modifier implementation here Modifier }, )
import androidx.compose.ui.Modifier import androidx.compose.ui.composed import androidx.compose.ui.graphics.Color import androidx.compose.ui.platform.debugInspectorInfo import androidx.compose.ui.unit.Dp // let's create your own custom stateful modifier with multiple arguments fun Modifier.myModifier(width: Dp, height: Dp, color: Color) = composed( // pass inspector information for debug inspectorInfo = debugInspectorInfo { // name should match the name of the modifier name = "myModifier" // add name and value of each argument properties["width"] = width properties["height"] = height properties["color"] = color }, // pass your modifier implementation that resolved per modified element factory = { // add your modifier implementation here Modifier }, )
materialize must be called to create instance-specific modifiers if you are directly applying a Modifier to an element tree node.
Modifier.composed
fun Modifier.composed(
fullyQualifiedName: String,
vararg keys: Any?,
inspectorInfo: InspectorInfo.() -> Unit = NoInspectorInfo,
factory: @Composable Modifier.() -> Modifier
): Modifier
Declare a just-in-time composition of a Modifier that will be composed for each element it modifies. composed may be used to implement stateful modifiers that have instance-specific state for each modified element, allowing the same Modifier instance to be safely reused for multiple elements while maintaining element-specific state.
When keys are provided, composed produces a Modifier that will compare equals to another modifier constructed with the same keys in order to take advantage of caching and skipping optimizations. fullyQualifiedName should be the fully-qualified import name for your modifier factory function, e.g. com.example.myapp.ui.fancyPadding.
If inspectorInfo is specified this modifier will be visible to tools during development. Specify the name and arguments of the original modifier.
Example usage:
import androidx.compose.ui.Modifier import androidx.compose.ui.composed import androidx.compose.ui.graphics.Color import androidx.compose.ui.platform.debugInspectorInfo // let's create your own custom stateful modifier fun Modifier.myColorModifier(color: Color) = composed( // pass inspector information for debug inspectorInfo = debugInspectorInfo { // name should match the name of the modifier name = "myColorModifier" // specify a single argument as the value when the argument name is irrelevant value = color }, // pass your modifier implementation that resolved per modified element factory = { // add your modifier implementation here Modifier }, )
import androidx.compose.ui.Modifier import androidx.compose.ui.composed import androidx.compose.ui.graphics.Color import androidx.compose.ui.platform.debugInspectorInfo import androidx.compose.ui.unit.Dp // let's create your own custom stateful modifier with multiple arguments fun Modifier.myModifier(width: Dp, height: Dp, color: Color) = composed( // pass inspector information for debug inspectorInfo = debugInspectorInfo { // name should match the name of the modifier name = "myModifier" // add name and value of each argument properties["width"] = width properties["height"] = height properties["color"] = color }, // pass your modifier implementation that resolved per modified element factory = { // add your modifier implementation here Modifier }, )
materialize must be called to create instance-specific modifiers if you are directly applying a Modifier to an element tree node.
Modifier.composed
fun Modifier.composed(
fullyQualifiedName: String,
key1: Any?,
key2: Any?,
inspectorInfo: InspectorInfo.() -> Unit = NoInspectorInfo,
factory: @Composable Modifier.() -> Modifier
): Modifier
Declare a just-in-time composition of a Modifier that will be composed for each element it modifies. composed may be used to implement stateful modifiers that have instance-specific state for each modified element, allowing the same Modifier instance to be safely reused for multiple elements while maintaining element-specific state.
When keys are provided, composed produces a Modifier that will compare equals to another modifier constructed with the same keys in order to take advantage of caching and skipping optimizations. fullyQualifiedName should be the fully-qualified import name for your modifier factory function, e.g. com.example.myapp.ui.fancyPadding.
If inspectorInfo is specified this modifier will be visible to tools during development. Specify the name and arguments of the original modifier.
Example usage:
import androidx.compose.ui.Modifier import androidx.compose.ui.composed import androidx.compose.ui.graphics.Color import androidx.compose.ui.platform.debugInspectorInfo // let's create your own custom stateful modifier fun Modifier.myColorModifier(color: Color) = composed( // pass inspector information for debug inspectorInfo = debugInspectorInfo { // name should match the name of the modifier name = "myColorModifier" // specify a single argument as the value when the argument name is irrelevant value = color }, // pass your modifier implementation that resolved per modified element factory = { // add your modifier implementation here Modifier }, )
import androidx.compose.ui.Modifier import androidx.compose.ui.composed import androidx.compose.ui.graphics.Color import androidx.compose.ui.platform.debugInspectorInfo import androidx.compose.ui.unit.Dp // let's create your own custom stateful modifier with multiple arguments fun Modifier.myModifier(width: Dp, height: Dp, color: Color) = composed( // pass inspector information for debug inspectorInfo = debugInspectorInfo { // name should match the name of the modifier name = "myModifier" // add name and value of each argument properties["width"] = width properties["height"] = height properties["color"] = color }, // pass your modifier implementation that resolved per modified element factory = { // add your modifier implementation here Modifier }, )
materialize must be called to create instance-specific modifiers if you are directly applying a Modifier to an element tree node.
Modifier.composed
fun Modifier.composed(
fullyQualifiedName: String,
key1: Any?,
key2: Any?,
key3: Any?,
inspectorInfo: InspectorInfo.() -> Unit = NoInspectorInfo,
factory: @Composable Modifier.() -> Modifier
): Modifier
Declare a just-in-time composition of a Modifier that will be composed for each element it modifies. composed may be used to implement stateful modifiers that have instance-specific state for each modified element, allowing the same Modifier instance to be safely reused for multiple elements while maintaining element-specific state.
When keys are provided, composed produces a Modifier that will compare equals to another modifier constructed with the same keys in order to take advantage of caching and skipping optimizations. fullyQualifiedName should be the fully-qualified import name for your modifier factory function, e.g. com.example.myapp.ui.fancyPadding.
If inspectorInfo is specified this modifier will be visible to tools during development. Specify the name and arguments of the original modifier.
Example usage:
import androidx.compose.ui.Modifier import androidx.compose.ui.composed import androidx.compose.ui.graphics.Color import androidx.compose.ui.platform.debugInspectorInfo // let's create your own custom stateful modifier fun Modifier.myColorModifier(color: Color) = composed( // pass inspector information for debug inspectorInfo = debugInspectorInfo { // name should match the name of the modifier name = "myColorModifier" // specify a single argument as the value when the argument name is irrelevant value = color }, // pass your modifier implementation that resolved per modified element factory = { // add your modifier implementation here Modifier }, )
import androidx.compose.ui.Modifier import androidx.compose.ui.composed import androidx.compose.ui.graphics.Color import androidx.compose.ui.platform.debugInspectorInfo import androidx.compose.ui.unit.Dp // let's create your own custom stateful modifier with multiple arguments fun Modifier.myModifier(width: Dp, height: Dp, color: Color) = composed( // pass inspector information for debug inspectorInfo = debugInspectorInfo { // name should match the name of the modifier name = "myModifier" // add name and value of each argument properties["width"] = width properties["height"] = height properties["color"] = color }, // pass your modifier implementation that resolved per modified element factory = { // add your modifier implementation here Modifier }, )
materialize must be called to create instance-specific modifiers if you are directly applying a Modifier to an element tree node.