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@@ -214,3 +214,10 @@
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- `loadFluenceTable()`, `loadHzTable()`, `calculateInterpolatedC()` 영향 확인
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- 성능/안정성 이슈 시
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- `txPacketLoop()` 주기, `RX_TIMEOUT_THRESHOLD`, DB 로그 적재량 점검
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## 10) Troubleshooting
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- 시리얼 초기 TX 누락(Startup race, FD 설명, 수정 내역):
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- [`docs/serial_tx_startup_race.md`](docs/serial_tx_startup_race.md)
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- 변경 요약 문서(`git diff` 기준):
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- [`docs/change_summary_2026-03-04.md`](docs/change_summary_2026-03-04.md)
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@@ -9,7 +9,7 @@ package com.laseroptek.raman.const
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val HzTable_10_10 = mapOf(
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// Pulse Width = 0.5f
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Pair(0.5f, 0.5f) to KEY_BLUE,
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Pair(0.5f, 0.5f) to KEY_GREEN,
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Pair(0.5f, 0.6f) to KEY_BLUE,
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Pair(0.5f, 0.7f) to KEY_BLUE,
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Pair(0.5f, 0.8f) to KEY_BLUE,
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@@ -24,7 +24,7 @@ val HzTable_5_5 = mapOf(
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Pair(0.5f,3.4f) to KEY_BLUE,
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Pair(0.5f,3.6f) to KEY_BLUE,
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Pair(0.5f,3.8f) to KEY_BLUE,
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Pair(0.5f,4.0f) to KEY_YELLOW,
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Pair(0.5f,4.0f) to KEY_BLUE,
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Pair(0.5f,4.2f) to KEY_YELLOW,
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Pair(0.5f,4.4f) to KEY_YELLOW,
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Pair(0.5f,4.6f) to KEY_YELLOW,
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@@ -108,7 +108,7 @@ val HzTable_7_7 = mapOf(
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Pair(1.5f, 8.0f) to KEY_GRAY,
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// Pulse Width = 3f
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Pair(3f, 1.1f) to KEY_RED,
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Pair(3f, 1.1f) to KEY_GRAY,
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Pair(3f, 1.2f) to KEY_GRAY,
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Pair(3f, 1.3f) to KEY_GRAY,
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Pair(3f, 1.4f) to KEY_GRAY,
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@@ -61,7 +61,7 @@ const val MAX_Q_SWITCH_VALUE = 250.0f
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const val MAX_REFER1_VALUE = 99999999 // 8 byte ascii (ENERGY DETECT MEASURED VALUE)
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const val DEFAULT_REFER1_VALUE = 0 // initial state
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const val DEFAULT_DCD_GAS_PRESSURE = 06.5f
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const val DEFAULT_DCD_GAS_PRESSURE = 08.0f
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const val DEFAULT_SPAY_DCD_TIME = 10
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const val DEFAULT_SPAY_DCD_DELAY = 10
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@@ -461,17 +461,17 @@ val dcdLifeSpanAdjustLists = listOf( 0.5f, 0.7f, 0.9f, 1.0f, 1.1f, 1.2f )
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val dcdLifeSpanAdjustStringLists = dcdLifeSpanAdjustLists.map{ it.toString() }
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val dcdSprayValues = listOf(10, 20, 30, 40, 50, 60, 70, 80, 90, 100).map{ it.toString() }
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val dcdDelayValues = listOf(10, 20, 30, 40, 50, 60, 70, 80, 90, 100).map{ it.toString() }
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val dcdDelayValues = listOf(10, 20, 30, 40).map{ it.toString() }
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// default spray dcd list for options
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val SprayDcdList = listOf<SprayDcd>(
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SprayDcd(status = 0x44, sprayTime = 10, sprayDelay = 10), // default
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SprayDcd(status = 0x44, sprayTime = 10, sprayDelay = 10),
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SprayDcd(status = 0x44, sprayTime = 20, sprayDelay = 20),
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SprayDcd(status = 0x44, sprayTime = 30, sprayDelay = 20),
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SprayDcd(status = 0x44, sprayTime = 40, sprayDelay = 40),
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SprayDcd(status = 0x44, sprayTime = 50, sprayDelay = 50),
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SprayDcd(status = 0x44, sprayTime = 60, sprayDelay = 60),
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SprayDcd(status = 0x41, sprayTime = 10, sprayDelay = 10), // default
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SprayDcd(status = 0x41, sprayTime = 10, sprayDelay = 10),
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SprayDcd(status = 0x41, sprayTime = 20, sprayDelay = 10),
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SprayDcd(status = 0x41, sprayTime = 30, sprayDelay = 20),
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SprayDcd(status = 0x41, sprayTime = 40, sprayDelay = 20),
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SprayDcd(status = 0x41, sprayTime = 50, sprayDelay = 30),
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SprayDcd(status = 0x41, sprayTime = 60, sprayDelay = 30),
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)
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val PresetList = listOf<Preset>(
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@@ -3,7 +3,7 @@ package com.laseroptek.raman.data.model.serial
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import com.laseroptek.raman.const.DEFAULT_DCD_GAS_PRESSURE
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data class DcdGas(
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val status: Int = 0x41, // 1Byte(A(0x41): on, D(0x44): off, P(0x50): pressure)
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val status: Int = 0x50, // 1Byte(A(0x41): on, D(0x44): off, P(0x50): pressure)
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val pressure: Float = DEFAULT_DCD_GAS_PRESSURE, // Ascii 4Byte (xx.x): Pressure
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val ok: Int = 0x00, // 1Byte(N(0x4E): Not OK, O(0x00F): OK)/
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)
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@@ -1,5 +1,5 @@
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package com.laseroptek.raman.data.model.serial
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data class HandPiece(
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val type:Int = 1 // ascii (00 ~ 99)
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val type:Int = 0 // ascii (00 ~ 99)
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)
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@@ -260,9 +260,11 @@ class MainActivity : ComponentActivity() {
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// This prevents serial interrupts from stealing CPU during the first frame.
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delay(200)
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vm.txPacketOnce()
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// IMPORTANT:
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// rxPacketLoop() starts serial open() asynchronously.
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// Start RX first so txPacketOnce() is less likely to run before FD is ready.
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vm.rxPacketLoop()
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vm.txPacketOnce()
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vm.txPacketLoop()
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Timber.d("System fully operational.")
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@@ -58,7 +58,7 @@ fun LifeTimeView(
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Spacer(modifier = Modifier.height(2.px.dp))
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// Temp 0..7
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for (i in 0..lifeTimeTypes.size -1) {
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for (i in 0..lifeTimeTypes.size - 1) {
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val value = when (i) {
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0 -> lifeTime.lamp
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1 -> lifeTime.hp5x5
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@@ -304,7 +304,7 @@ fun HomeScreen(
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pulseType = pulseType,
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handPieceType = handPiece.type,
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type = LaserStatusType.REPETITION,
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angle = if (pulseType == 0 || repetitionList.size < 2) 0f else repetitionAngle,
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angle = if (pulseType == 0 || repetitionList.isEmpty()) 0f else repetitionAngle,
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onChange = { angle ->
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if (handPiece.type == 0) {
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Toast.makeText(
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@@ -315,7 +315,7 @@ fun HomeScreen(
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return@LaserControlView
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}
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if (pulseType == 0 || repetitionList.size < 2) {
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if (pulseType == 0 || repetitionList.isEmpty()) {
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//Toast.makeText(context, "Single pulse type (0 Hz)", Toast.LENGTH_SHORT).show()
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} else {
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mainViewModel.onChangeRepetition(angle)
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@@ -332,7 +332,7 @@ fun HomeScreen(
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return@LaserControlView
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}
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if (pulseType == 0 || repetitionList.size < 2) {
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if (pulseType == 0 || repetitionList.isEmpty()) {
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//Toast.makeText(context, "Single pulse type (0 Hz)", Toast.LENGTH_SHORT).show()
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} else {
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//mainViewModel.onClickRepetition(state)
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@@ -256,7 +256,11 @@ fun DcdSettingPopup(
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mainViewModel.setSelectedSprayDcdIndex(i)
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val optionValue = mainViewModel.sprayDcdList[i]
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mainViewModel.setSprayDcd(optionValue)
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mainViewModel.txPacket(READ_WRITE.WRITE, CMD.SPRAY_DCD, optionValue)
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mainViewModel.txPacket(
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READ_WRITE.WRITE,
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CMD.SPRAY_DCD,
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optionValue.copy(status = 0x41)
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)
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scope.launch {
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mainViewModel.saveSprayDcdIndexToPreference()
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@@ -303,7 +307,11 @@ fun DcdSettingPopup(
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mainViewModel.setSelectedSprayDcdIndex(i)
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val optionValue = mainViewModel.sprayDcdList[i]
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mainViewModel.setSprayDcd(optionValue)
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mainViewModel.txPacket(READ_WRITE.WRITE, CMD.SPRAY_DCD, optionValue)
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mainViewModel.txPacket(
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READ_WRITE.WRITE,
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CMD.SPRAY_DCD,
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optionValue.copy(status = 0x41)
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)
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scope.launch {
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mainViewModel.saveSprayDcdToPreference()
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@@ -603,6 +611,12 @@ fun DcdSettingPopup(
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sprayDcd
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)
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mainViewModel.txPacket(
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READ_WRITE.WRITE,
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CMD.SPRAY_DCD,
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sprayDcd.copy(status = 0x41)
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)
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mainViewModel.setSelectedSprayDcdIndex( selectedSprayDcdIndex )
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//mainViewModel.setSprayDcdList( mainViewModel.sprayDcdList )
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@@ -97,7 +97,7 @@ fun DcdView(
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Column(
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modifier = Modifier
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.width(45.px.dp)
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.width(55.px.dp)
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.fillMaxHeight()
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, horizontalAlignment = Alignment.CenterHorizontally
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, verticalArrangement = Arrangement.Center
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@@ -120,7 +120,7 @@ fun DcdView(
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)
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}
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Spacer( Modifier.width(10.px.dp))
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Spacer( Modifier.width(5.px.dp))
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VerticalDivider(
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color = Color(161,161,170),
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@@ -128,7 +128,7 @@ fun DcdView(
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modifier = Modifier.size(1.px.dp, 30.px.dp)
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)
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Spacer( Modifier.width(10.px.dp))
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Spacer( Modifier.width(5.px.dp))
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// Delay
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Timber.d("selectedSprayDcdIndex.value: ${selectedSprayDcdIndex}")
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@@ -780,21 +780,25 @@ fun PresetLoadPopup(
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.noRippleClickable(onClick = {
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Timber.d("onClick - Preset Load")
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val selectedPreset =
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presetViewModel.getPreset(selectedPresetIndex)
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val priority =
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selectedPreset?.priority ?: 0
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val selectedPreset = presetViewModel.getPreset(selectedPresetIndex)
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if (selectedPreset == null) {
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Timber.w("onClick - Preset Load: selectedPreset is null. index=$selectedPresetIndex")
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return@noRippleClickable
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}
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val priority = selectedPreset.priority
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Timber.d("onClick - Preset Load ($priority)")
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// if (priority > 0) { // TODO : 검증 필요
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if (priority > 0) {
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mainViewModel.setSelectedPresetIndex( priority )
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mainViewModel.applyPreset(priority)
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} else {
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// 우선순위가 NONE인 경우, 인덱스 설정 X
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mainViewModel.setSelectedPresetIndex(0)
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mainViewModel.applyPreset(selectedPreset)
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}
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presetViewModel.clearPreset()
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onClick.invoke(false)
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// } else {
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// Timber.d("SKIP - Preset Load ($priority)")
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// }
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})
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.size(40.px.dp)
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.background(Color.Transparent)
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@@ -134,6 +134,7 @@ import kotlinx.coroutines.joinAll
|
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import kotlinx.coroutines.launch
|
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import kotlinx.coroutines.withContext
|
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import timber.log.Timber
|
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import kotlin.math.abs
|
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import javax.inject.Inject
|
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import kotlin.experimental.or
|
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import kotlin.time.Duration.Companion.milliseconds
|
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@@ -814,6 +815,15 @@ class MainViewModel @Inject constructor(
|
||||
}
|
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|
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fun txPacketOnce() {
|
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viewModelScope.launch(dispatcherProvider.io) {
|
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// txPacketOnce is called during app startup.
|
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// Because serial open() is started in rxPacketLoop() asynchronously,
|
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// FD can still be -1 here (startup race). Wait briefly before first TX burst.
|
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if (!waitUntilSerialReady()) {
|
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Timber.e("txPacketOnce skipped: serial port is not ready (fd=%d)", serialPortRepository.getFD())
|
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return@launch
|
||||
}
|
||||
|
||||
// viewModel init 으로 이동. 필요.
|
||||
// 경고 정보 조회 (주기적 heart beat)
|
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// repeatOnLifecycle은 Activity가 포그라운드에 있을 때로 한정지어, 특정 Lifecycle이 Trigger 되었을 때 동작하도록 만드는 block 임.
|
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@@ -824,14 +834,43 @@ class MainViewModel @Inject constructor(
|
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// tx Q-Switch Write
|
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txPacket(READ_WRITE.WRITE, CMD.Q_SWITCH, qSwitch.value)
|
||||
|
||||
// tx Oven Write (align with Engineer KTP write source)
|
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txPacket(READ_WRITE.WRITE, CMD.OVEN, Oven(ktp = temperature_write.value.ktp))
|
||||
|
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// tx Guide Beam Write
|
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txPacket(READ_WRITE.WRITE, CMD.GUIDE_BEAM, GuideBeam(value = guideBeam.value.toInt()))
|
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txPacket(READ_WRITE.WRITE, CMD.GUIDE_BEAM, GuideBeam(value = getGuideBeamTxValue()))
|
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|
||||
// tx DCD_GAS Write (DEFAULT VALUE)
|
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txPacket(READ_WRITE.WRITE, CMD.DCD_GAS, dcdGas.value.copy(status = 0x50))
|
||||
|
||||
// tx SPRAY_DCD Write (DEFAULT VALUE)
|
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txPacket(READ_WRITE.WRITE, CMD.SPRAY_DCD, sprayDcd.value)
|
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txPacket(READ_WRITE.WRITE, CMD.SPRAY_DCD, sprayDcd.value.copy(status = 0x41))
|
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}
|
||||
}
|
||||
|
||||
private suspend fun waitUntilSerialReady(
|
||||
timeoutMillis: Long = 2000L,
|
||||
pollIntervalMillis: Long = 20L
|
||||
): Boolean {
|
||||
// Poll FD until open() completes, with a bounded timeout to avoid blocking forever.
|
||||
val start = System.currentTimeMillis()
|
||||
while (System.currentTimeMillis() - start < timeoutMillis) {
|
||||
if (serialPortRepository.getFD() != -1) return true
|
||||
delay(pollIntervalMillis)
|
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}
|
||||
return serialPortRepository.getFD() != -1
|
||||
}
|
||||
|
||||
// Guide Beam step mapping (0~10)
|
||||
// 0 -> fixed 0
|
||||
// 1~10 -> min~max range in 10 steps (10 -> max)
|
||||
private fun getGuideBeamTxValue(): Int {
|
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val step = guideBeam.value.toInt().coerceIn(0, 10)
|
||||
return if (step == 0) {
|
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0
|
||||
} else {
|
||||
guideBeamMin.value + ((step - 1) * (guideBeamMax.value - guideBeamMin.value) / 9)
|
||||
}
|
||||
}
|
||||
|
||||
// Example: Emitting an event after a delay
|
||||
@@ -1067,7 +1106,7 @@ class MainViewModel @Inject constructor(
|
||||
CMD.LASER_STATUS -> {
|
||||
val l = packet.data.toLaserStatus()
|
||||
setLaserStatus(l.copy())
|
||||
// on receuve laser on (or interval) increase count and save to pref.
|
||||
// on receive laser on (or interval) increase count and save to pref.
|
||||
// Laser On 패킷만 counting 하도록 변경 (2개 패킷 모두 수신 됨)
|
||||
if (_laserStatus.value.laserStatus == LASER_STATUS.LASER_ON /* || l.laserStatus == LASER_STATUS.INTERVAL */) {
|
||||
playBeepSound()
|
||||
@@ -1146,58 +1185,19 @@ class MainViewModel @Inject constructor(
|
||||
setEnergyControl(EnergyControl(0x03, 0x00))
|
||||
setEnergyMeasured(EnergyMeasured(0x04, 0x00, 0x00))
|
||||
|
||||
// hand piece 별 count 증가
|
||||
when (h.type) {
|
||||
1 -> { // hp 5x5
|
||||
setLifeTime(
|
||||
_lifeTime.value.copy(
|
||||
hp5x5 = _lifeTime.value.hp5x5 + 1
|
||||
)
|
||||
)
|
||||
saveLifeTimeToPreference()
|
||||
Timber.d("_lifeTime (hp5x5): ${_lifeTime}")
|
||||
}
|
||||
2 -> {
|
||||
setLifeTime(
|
||||
_lifeTime.value.copy(
|
||||
hp7x7 = _lifeTime.value.hp7x7 + 1
|
||||
)
|
||||
)
|
||||
saveLifeTimeToPreference()
|
||||
Timber.d("_lifeTime (hp7x7): ${_lifeTime}")
|
||||
}
|
||||
3 -> {
|
||||
setLifeTime(
|
||||
_lifeTime.value.copy(
|
||||
hp10x10 = _lifeTime.value.hp10x10 + 1
|
||||
)
|
||||
)
|
||||
saveLifeTimeToPreference()
|
||||
Timber.d("_lifeTime (hp10x10): ${_lifeTime}")
|
||||
}
|
||||
4 -> {
|
||||
setLifeTime(
|
||||
_lifeTime.value.copy(
|
||||
hp12x12 = _lifeTime.value.hp12x12 + 1
|
||||
)
|
||||
)
|
||||
saveLifeTimeToPreference()
|
||||
Timber.d("_lifeTime (hp12x12): ${_lifeTime}")
|
||||
}
|
||||
5 -> {
|
||||
setLifeTime(
|
||||
_lifeTime.value.copy(
|
||||
hp3x15 = _lifeTime.value.hp3x15 + 1
|
||||
)
|
||||
)
|
||||
saveLifeTimeToPreference()
|
||||
Timber.d("_lifeTime (hp3x15): ${_lifeTime}")
|
||||
}
|
||||
val connectedHandPieceLifeTime = when (h.type) {
|
||||
1 -> lifeTime.value.hp5x5
|
||||
2 -> lifeTime.value.hp7x7
|
||||
3 -> lifeTime.value.hp10x10
|
||||
4 -> lifeTime.value.hp12x12
|
||||
5 -> lifeTime.value.hp3x15
|
||||
else -> {
|
||||
Timber.d("unknwon hand piece type: ${h.type}")
|
||||
Timber.d("Unknown Hand-piece type: ${h.type}")
|
||||
return@launch
|
||||
}
|
||||
}
|
||||
Timber.d("HAND_PIECE lifetime: type=${h.type}, value=${connectedHandPieceLifeTime}, hpCount=${hpCount.value}")
|
||||
|
||||
|
||||
// hand piece가 변경 시점 에서, pref 테이블 값을 -> energyTable 로 로딩
|
||||
loadFluenceTable(handPiece.value.type)
|
||||
@@ -2043,28 +2043,58 @@ class MainViewModel @Inject constructor(
|
||||
Timber.d("preset: ${preset}")
|
||||
|
||||
val newPreset = if (preset == null) {
|
||||
val defaultPulseWidth = PulseDurations.first()
|
||||
Preset(
|
||||
handPieceType = handPiece.value.type,
|
||||
priority = priority,
|
||||
fluence = energyTable.value.getKey2ListForKey1(0.5f).first(),
|
||||
fluence = energyTable.value.getKey2ListForKey1(defaultPulseWidth).firstOrNull() ?: 0f,
|
||||
repetition = repetitionList.value.first(),
|
||||
pulseWidth = PulseDurations.first(),
|
||||
pulseWidth = defaultPulseWidth,
|
||||
)
|
||||
} else {
|
||||
preset
|
||||
}
|
||||
applyPreset(newPreset)
|
||||
}
|
||||
|
||||
val fluenceList = energyTable.value.getKey2ListForKey1(newPreset.pulseWidth)
|
||||
fun applyPreset(preset: Preset) {
|
||||
val newPreset = preset.copy()
|
||||
|
||||
val pulseStep = PulseDurations.indexOf(newPreset.pulseWidth).takeIf {it != -1} ?: 0
|
||||
val fluenceStep = fluenceList.indexOf(newPreset.fluence).takeIf {it != -1} ?: 0
|
||||
val repetitionStep = repetitionList.value.indexOf(newPreset.repetition).takeIf {it != -1} ?: 0
|
||||
val resolvedPulseWidth = PulseDurations[pulseStep]
|
||||
|
||||
// 프리셋의 pulseWidth 기준으로 실제 사용 가능한 fluence 목록을 먼저 동기화한다.
|
||||
val newFluenceList = energyTable.value.getKey2ListForKey1(resolvedPulseWidth)
|
||||
if (newFluenceList != fluenceList.value) {
|
||||
setFluenceList(newFluenceList)
|
||||
}
|
||||
|
||||
// 프리셋 fluence가 정확히 없을 수 있으므로, 가장 가까운 값으로 보정한다.
|
||||
val resolvedFluence = newFluenceList.minByOrNull { abs(it - newPreset.fluence) }
|
||||
?: newFluenceList.firstOrNull()
|
||||
?: 0f
|
||||
val fluenceStep = newFluenceList.indexOf(resolvedFluence).takeIf { it != -1 } ?: 0
|
||||
|
||||
// 보정된 (pulseWidth, fluence) 조합으로 repetition 테이블을 다시 계산한다.
|
||||
val hzType = hzTable.value.getValue(resolvedPulseWidth, resolvedFluence)
|
||||
val newRepetitionList = RepetitionsByColorKey[hzType] ?: RepetitionsByColorKey[KEY_YELLOW]!!
|
||||
if (newRepetitionList != repetitionList.value) {
|
||||
setRepetitionList(newRepetitionList)
|
||||
}
|
||||
val repetitionStep = newRepetitionList.indexOf(newPreset.repetition).takeIf { it != -1 } ?: 0
|
||||
|
||||
Timber.d("pulseStep: ${pulseStep} fluenceStep: ${fluenceStep} repetitionStep: ${repetitionStep}")
|
||||
|
||||
val pulseAngle = pulseStep.stepToDegree(totalSteps = PulseDurations.size)
|
||||
val fluenceAngle = fluenceStep.stepToDegree(totalSteps = fluenceList.size)
|
||||
val repetitionAngle = repetitionStep.stepToDegree(totalSteps = repetitionList.value.size)
|
||||
val fluenceAngle = if (newFluenceList.isNotEmpty()) {
|
||||
fluenceStep.stepToDegree(totalSteps = newFluenceList.size)
|
||||
} else {
|
||||
0f
|
||||
}
|
||||
val repetitionAngle = repetitionIndexToAngle(
|
||||
index = repetitionStep,
|
||||
totalSteps = newRepetitionList.size,
|
||||
)
|
||||
|
||||
Timber.d("pulseStep: ${pulseStep} fluenceStep: ${fluenceStep} repetitionStep: ${repetitionStep}")
|
||||
|
||||
@@ -2094,30 +2124,35 @@ class MainViewModel @Inject constructor(
|
||||
setFluenceList(newFluenceList)
|
||||
}
|
||||
|
||||
// 2-1. Resolve and apply fluence by value (not by old angle/index).
|
||||
val resolvedFluence = newFluenceList.minByOrNull { abs(it - newFluence) } ?: 0f
|
||||
val resolvedFluenceIndex = newFluenceList.indexOf(resolvedFluence).takeIf { it >= 0 } ?: 0
|
||||
if (newFluenceList.isNotEmpty()) {
|
||||
setFluenceAngle(resolvedFluenceIndex.stepToDegree(totalSteps = newFluenceList.size))
|
||||
}
|
||||
|
||||
// 3. Safely Update Repetition List (Prevents NullPointerException)
|
||||
val newHzType = hzTable.value.getValue(newPulseDuration, newFluence)
|
||||
val newHzType = hzTable.value.getValue(newPulseDuration, resolvedFluence)
|
||||
val newRepetitionList = RepetitionsByColorKey[newHzType] ?: RepetitionsByColorKey[KEY_YELLOW]!!
|
||||
if (newRepetitionList != repetitionList.value) {
|
||||
setRepetitionList(newRepetitionList)
|
||||
}
|
||||
|
||||
// Smartly preserve Repetition Angle
|
||||
// 4. Check if the old repetition value exists in the new list.
|
||||
val oldRepetitionIndex = if (currentRepetitionValue != null) {
|
||||
newRepetitionList.indexOf(currentRepetitionValue)
|
||||
} else {
|
||||
-1
|
||||
}
|
||||
// 4. Resolve and apply repetition by value (not by old angle/index).
|
||||
val targetRepetition = currentRepetitionValue ?: 0f
|
||||
val resolvedRepetition = newRepetitionList.minByOrNull { abs(it - targetRepetition) } ?: 0f
|
||||
val resolvedRepetitionIndex = newRepetitionList.indexOf(resolvedRepetition).takeIf { it >= 0 } ?: 0
|
||||
|
||||
if (oldRepetitionIndex != -1) {
|
||||
// If the old value exists, set the slider to that position.
|
||||
val preservedAngle = oldRepetitionIndex.stepToDegree(totalSteps = newRepetitionList.size)
|
||||
setRepetitionAngle(preservedAngle)
|
||||
Timber.d("Repetition value $currentRepetitionValue preserved at new angle $preservedAngle.")
|
||||
if (newRepetitionList.isNotEmpty()) {
|
||||
val resolvedRepetitionAngle = repetitionIndexToAngle(
|
||||
index = resolvedRepetitionIndex,
|
||||
totalSteps = newRepetitionList.size,
|
||||
)
|
||||
setRepetitionAngle(resolvedRepetitionAngle)
|
||||
Timber.d("Resolved repetition by value: old=$currentRepetitionValue, new=$resolvedRepetition, angle=$resolvedRepetitionAngle")
|
||||
} else {
|
||||
// If it doesn't exist, THEN reset the slider to the beginning.
|
||||
setRepetitionAngle(0f)
|
||||
Timber.d("Repetition value $currentRepetitionValue not supported in new list. Resetting angle.")
|
||||
Timber.d("Repetition list is empty. Resetting repetition angle to 0f.")
|
||||
}
|
||||
|
||||
// 5. Conditionally reset the fluence angle slider if needed
|
||||
@@ -2130,7 +2165,7 @@ class MainViewModel @Inject constructor(
|
||||
// 6. Any change invalidates the current preset selection.
|
||||
setSelectedPresetIndex(0)
|
||||
|
||||
Timber.d("Updated Laser Parameters: pulse=$newPulseDuration, fluence=$newFluence -> newRepListSize=${newRepetitionList.size}")
|
||||
Timber.d("Updated Laser Parameters: pulse=$newPulseDuration, fluence=$resolvedFluence -> newRepListSize=${newRepetitionList.size}")
|
||||
}
|
||||
|
||||
/**
|
||||
@@ -2150,13 +2185,16 @@ class MainViewModel @Inject constructor(
|
||||
setPulseAngle(newPulseStep.stepToDegree(totalSteps = PulseDurations.size))
|
||||
|
||||
val newPulseDuration = PulseDurations[newPulseStep]
|
||||
// When pulse duration changes via slider, we use the first available fluence for the new list.
|
||||
val firstFluence = energyTable.value.getKey2ListForKey1(newPulseDuration).firstOrNull() ?: 0f
|
||||
// Keep the current fluence value when pulse duration changes via slider.
|
||||
val currentFluenceStep = fluenceAngle.value.degreeToStep(totalSteps = fluenceList.value.size)
|
||||
val currentFluence = fluenceList.value.getOrNull(currentFluenceStep)
|
||||
?: energyTable.value.getKey2ListForKey1(newPulseDuration).firstOrNull()
|
||||
?: 0f
|
||||
|
||||
// Call the centralized helper, resetting the fluence slider.
|
||||
// Call the centralized helper using the preserved fluence value.
|
||||
updateLaserParameters(
|
||||
newPulseDuration = newPulseDuration,
|
||||
newFluence = firstFluence,
|
||||
newFluence = currentFluence,
|
||||
)
|
||||
}
|
||||
|
||||
@@ -2168,12 +2206,17 @@ class MainViewModel @Inject constructor(
|
||||
setPulseAngle(newStep.stepToDegree(totalSteps = PulseDurations.size))
|
||||
|
||||
val newPulseDuration = PulseDurations[newStep]
|
||||
val firstFluence = energyTable.value.getKey2ListForKey1(newPulseDuration).firstOrNull() ?: 0f
|
||||
// Keep the current fluence value when pulse duration changes via slider.
|
||||
val currentFluenceStep = fluenceAngle.value.degreeToStep(totalSteps = fluenceList.value.size)
|
||||
val currentFluence = fluenceList.value.getOrNull(currentFluenceStep)
|
||||
?: energyTable.value.getKey2ListForKey1(newPulseDuration).firstOrNull()
|
||||
?: 0f
|
||||
|
||||
|
||||
// Call the centralized helper, resetting the fluence slider.
|
||||
updateLaserParameters(
|
||||
newPulseDuration = newPulseDuration,
|
||||
newFluence = firstFluence,
|
||||
newFluence = currentFluence,
|
||||
)
|
||||
}
|
||||
}
|
||||
@@ -2216,8 +2259,12 @@ class MainViewModel @Inject constructor(
|
||||
|
||||
fun onChangeRepetition(angle: Float) {
|
||||
// This logic is simple and has no complex dependencies, so it can remain as is.
|
||||
if (angle != repetitionAngle.value) {
|
||||
setRepetitionAngle(angle)
|
||||
val normalizedAngle = repetitionIndexToAngle(
|
||||
index = angle.degreeToStep(totalSteps = repetitionList.value.size),
|
||||
totalSteps = repetitionList.value.size,
|
||||
)
|
||||
if (normalizedAngle != repetitionAngle.value) {
|
||||
setRepetitionAngle(normalizedAngle)
|
||||
}
|
||||
setSelectedPresetIndex(0)
|
||||
}
|
||||
@@ -2228,12 +2275,23 @@ class MainViewModel @Inject constructor(
|
||||
val newStep = if (state == UpDownState.Up) currentStep + 1 else currentStep - 1
|
||||
|
||||
if (newStep in repetitionList.value.indices) {
|
||||
val newRepetitionAngle = newStep.stepToDegree(totalSteps = repetitionList.value.size)
|
||||
val newRepetitionAngle = repetitionIndexToAngle(
|
||||
index = newStep,
|
||||
totalSteps = repetitionList.value.size,
|
||||
)
|
||||
setRepetitionAngle(newRepetitionAngle)
|
||||
setSelectedPresetIndex(0)
|
||||
}
|
||||
}
|
||||
|
||||
private fun repetitionIndexToAngle(index: Int, totalSteps: Int): Float {
|
||||
return when {
|
||||
totalSteps <= 0 -> 0f
|
||||
totalSteps == 1 -> 270f
|
||||
else -> index.stepToDegree(totalSteps = totalSteps)
|
||||
}
|
||||
}
|
||||
|
||||
/**
|
||||
* Perform all heavy I/O in a single background block.
|
||||
* This prevents the "Skipped frames" caused by 30+ sequential bridge calls
|
||||
|
||||
@@ -487,7 +487,7 @@ fun QSwitch.toByteArray(): ByteArray {
|
||||
val delayTimeIntegerPart = this.delayTime.toInt()
|
||||
val delayTimeFractionPart = ((this.delayTime - delayTimeIntegerPart) * 10).toInt()
|
||||
val intervalTimeIntegerPart = this.intervalTime.toInt()
|
||||
val intervalTimeFractionPart = ((this.intervalTime - delayTimeIntegerPart) * 10).toInt()
|
||||
val intervalTimeFractionPart = ((this.intervalTime - intervalTimeIntegerPart) * 10).toInt()
|
||||
|
||||
val delayTimeArray = byteArrayOf(
|
||||
((delayTimeIntegerPart.getNthDigit(2) + 0x30) and 0xFF).toByte(),
|
||||
|
||||
23
docs/change_summary_2026-03-04.md
Normal file
23
docs/change_summary_2026-03-04.md
Normal file
@@ -0,0 +1,23 @@
|
||||
# 변경 요약 (2026-03-04)
|
||||
|
||||
이 문서는 현재 `git diff` 기준으로 반영된 변경을 정리합니다.
|
||||
|
||||
## 1) 시리얼 초기 전송 누락(Startup race) 대응
|
||||
|
||||
### 변경 파일
|
||||
- `app/src/main/java/com/laseroptek/raman/ui/MainActivity.kt`
|
||||
- `app/src/main/java/com/laseroptek/raman/ui/screens/main/MainViewModel.kt`
|
||||
|
||||
### 변경 내용
|
||||
- `MainActivity.initialize()`의 시리얼 시작 순서를 조정
|
||||
- 이전: `txPacketOnce()` -> `rxPacketLoop()` -> `txPacketLoop()`
|
||||
- 이후: `rxPacketLoop()` -> `txPacketOnce()` -> `txPacketLoop()`
|
||||
- `MainViewModel.txPacketOnce()`를 코루틴(IO)에서 실행하도록 변경
|
||||
- `waitUntilSerialReady()` 추가
|
||||
- 최대 2초 동안 20ms 간격으로 `FD != -1` 확인
|
||||
- 준비 실패 시 에러 로그 후 초기 TX 중단
|
||||
- 관련 설명 주석 추가
|
||||
|
||||
### 의도/효과
|
||||
- 앱 시작 직후 `open()` 완료 전 TX가 먼저 발생하는 레이스를 완화/방어
|
||||
- 포트 미준비 상태(`FD == -1`)에서 write가 호출되어 초기 패킷이 누락되는 문제를 줄임
|
||||
41
docs/serial_tx_startup_race.md
Normal file
41
docs/serial_tx_startup_race.md
Normal file
@@ -0,0 +1,41 @@
|
||||
# Serial TX Startup Race 정리
|
||||
|
||||
## 1) FD(File Descriptor)란?
|
||||
- `FD`는 리눅스/안드로이드에서 열린 리소스(파일/소켓/시리얼 포트)를 가리키는 정수 핸들입니다.
|
||||
- 이 프로젝트에서 시리얼 포트 상태는 다음처럼 판단합니다.
|
||||
- `FD == -1`: 포트 미오픈(유효하지 않음)
|
||||
- `FD >= 0`: 포트 오픈 완료(유효)
|
||||
- 따라서 `FD == -1` 상태에서 `write()`를 호출하면 실제 시리얼 전송이 되지 않습니다.
|
||||
|
||||
## 2) 문제 원인
|
||||
- `txPacketOnce()`가 앱 시작 직후 실행됩니다.
|
||||
- 시리얼 포트 `open()`은 `rxPacketLoop()` 내부에서 코루틴으로 비동기 시작됩니다.
|
||||
- 기존 순서에서 `txPacketOnce()`가 먼저 호출되면, 포트 오픈 완료 전(`FD == -1`)에 TX가 시도되어 초기 패킷 전송이 누락될 수 있습니다.
|
||||
|
||||
## 3) 적용한 수정
|
||||
|
||||
### A. 초기 호출 순서 조정
|
||||
- 파일: `app/src/main/java/com/laseroptek/raman/ui/MainActivity.kt`
|
||||
- 변경:
|
||||
- 이전: `txPacketOnce()` -> `rxPacketLoop()` -> `txPacketLoop()`
|
||||
- 이후: `rxPacketLoop()` -> `txPacketOnce()` -> `txPacketLoop()`
|
||||
- 목적: RX 루프가 먼저 포트 오픈을 시작하도록 해서 초기 TX 레이스 확률을 줄임
|
||||
|
||||
### B. `txPacketOnce()`에 포트 준비 대기 추가
|
||||
- 파일: `app/src/main/java/com/laseroptek/raman/ui/screens/main/MainViewModel.kt`
|
||||
- 변경:
|
||||
- `txPacketOnce()`를 IO 코루틴에서 실행
|
||||
- `waitUntilSerialReady()`(최대 2초, 20ms 폴링)로 `FD != -1` 확인 후 TX 진행
|
||||
- 시간 내 준비 실패 시 로그를 남기고 전송 중단
|
||||
- 목적: 순서만으로 보장되지 않는 코루틴 스케줄링 레이스를 방어
|
||||
|
||||
## 4) 왜 TX에서 직접 open()하지 않았는가?
|
||||
- 현재 구조에서 `open()`의 데이터 콜백은 `rxPacketLoop()`의 `callbackFlow`와 연결됩니다.
|
||||
- TX 경로에서 별도 `open()`을 하면 중복 오픈/콜백 소유권/FD 교체 타이밍 이슈가 생길 수 있습니다.
|
||||
- 안정적인 패턴은:
|
||||
- 포트 오픈 책임: RX(단일 지점)
|
||||
- 포트 사용(TX): ready 확인 후 write
|
||||
|
||||
## 5) 확인 포인트
|
||||
- 앱 시작 직후 로그에서 `FD`가 유효해진 뒤 `txPacketOnce()`의 TX 로그가 출력되는지 확인
|
||||
- 장비 측 시리얼 모니터에서 초기 패킷(Version/Q-Switch/GuideBeam/DCD/SprayDCD) 수신 여부 확인
|
||||
Reference in New Issue
Block a user