commonMain.com.divpundir.mavlink.definitions.common.ScaledPressure3.kt Maven / Gradle / Ivy
package com.divpundir.mavlink.definitions.common
import com.divpundir.mavlink.api.GeneratedMavField
import com.divpundir.mavlink.api.GeneratedMavMessage
import com.divpundir.mavlink.api.MavMessage
import com.divpundir.mavlink.serialization.MavDataDecoder
import com.divpundir.mavlink.serialization.MavDataEncoder
import com.divpundir.mavlink.serialization.encodeFloat
import com.divpundir.mavlink.serialization.encodeInt16
import com.divpundir.mavlink.serialization.encodeUInt32
import com.divpundir.mavlink.serialization.safeDecodeFloat
import com.divpundir.mavlink.serialization.safeDecodeInt16
import com.divpundir.mavlink.serialization.safeDecodeUInt32
import com.divpundir.mavlink.serialization.truncateZeros
import kotlin.Byte
import kotlin.ByteArray
import kotlin.Float
import kotlin.Int
import kotlin.Short
import kotlin.UInt
import kotlin.Unit
/**
* Barometer readings for 3rd barometer
*
* @param timeBootMs Timestamp (time since system boot).
* units = ms
* @param pressAbs Absolute pressure
* units = hPa
* @param pressDiff Differential pressure
* units = hPa
* @param temperature Absolute pressure temperature
* units = cdegC
* @param temperaturePressDiff Differential pressure temperature (0, if not available). Report
* values of 0 (or 1) as 1 cdegC.
* units = cdegC
*/
@GeneratedMavMessage(
id = 143u,
crcExtra = -125,
)
public data class ScaledPressure3(
/**
* Timestamp (time since system boot).
* units = ms
*/
@GeneratedMavField(type = "uint32_t")
public val timeBootMs: UInt = 0u,
/**
* Absolute pressure
* units = hPa
*/
@GeneratedMavField(type = "float")
public val pressAbs: Float = 0F,
/**
* Differential pressure
* units = hPa
*/
@GeneratedMavField(type = "float")
public val pressDiff: Float = 0F,
/**
* Absolute pressure temperature
* units = cdegC
*/
@GeneratedMavField(type = "int16_t")
public val temperature: Short = 0,
/**
* Differential pressure temperature (0, if not available). Report values of 0 (or 1) as 1 cdegC.
* units = cdegC
*/
@GeneratedMavField(
type = "int16_t",
extension = true,
)
public val temperaturePressDiff: Short = 0,
) : MavMessage {
override val instanceCompanion: MavMessage.MavCompanion = Companion
override fun serializeV1(): ByteArray {
val encoder = MavDataEncoder(SIZE_V1)
encoder.encodeUInt32(timeBootMs)
encoder.encodeFloat(pressAbs)
encoder.encodeFloat(pressDiff)
encoder.encodeInt16(temperature)
return encoder.bytes
}
override fun serializeV2(): ByteArray {
val encoder = MavDataEncoder(SIZE_V2)
encoder.encodeUInt32(timeBootMs)
encoder.encodeFloat(pressAbs)
encoder.encodeFloat(pressDiff)
encoder.encodeInt16(temperature)
encoder.encodeInt16(temperaturePressDiff)
return encoder.bytes.truncateZeros()
}
public companion object : MavMessage.MavCompanion {
private const val SIZE_V1: Int = 14
private const val SIZE_V2: Int = 16
override val id: UInt = 143u
override val crcExtra: Byte = -125
override fun deserialize(bytes: ByteArray): ScaledPressure3 {
val decoder = MavDataDecoder(bytes)
val timeBootMs = decoder.safeDecodeUInt32()
val pressAbs = decoder.safeDecodeFloat()
val pressDiff = decoder.safeDecodeFloat()
val temperature = decoder.safeDecodeInt16()
val temperaturePressDiff = decoder.safeDecodeInt16()
return ScaledPressure3(
timeBootMs = timeBootMs,
pressAbs = pressAbs,
pressDiff = pressDiff,
temperature = temperature,
temperaturePressDiff = temperaturePressDiff,
)
}
public operator fun invoke(builderAction: Builder.() -> Unit): ScaledPressure3 =
Builder().apply(builderAction).build()
}
public class Builder {
public var timeBootMs: UInt = 0u
public var pressAbs: Float = 0F
public var pressDiff: Float = 0F
public var temperature: Short = 0
public var temperaturePressDiff: Short = 0
public fun build(): ScaledPressure3 = ScaledPressure3(
timeBootMs = timeBootMs,
pressAbs = pressAbs,
pressDiff = pressDiff,
temperature = temperature,
temperaturePressDiff = temperaturePressDiff,
)
}
}
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