calculateSendTime (need to fix)

2025-09-13 03:22:35 +00:00 · 2025-09-05 18:24:19 +03:00
parent 38f3ecac3a
commit 7bf71d1d52
2 changed files with 155 additions and 25 deletions
--- a/IR_Encoder.cpp
+++ b/IR_Encoder.cpp
@ -38,6 +38,8 @@ IR_Encoder::IR_Encoder(uint8_t pin, uint16_t addr, IR_DecoderRaw *decPair, bool
        last->next = this;
        }
        last = this;
        pinMode(pin, OUTPUT);
    }
 };
@ -126,21 +128,21 @@ void IR_Encoder::setBlindDecoders(IR_DecoderRaw *decoders[], uint8_t count)
 IR_Encoder::~IR_Encoder(){};
-void IR_Encoder::sendData(uint16_t addrTo, uint8_t dataByte, bool needAccept)
+IR_SendResult IR_Encoder::sendData(uint16_t addrTo, uint8_t dataByte, bool needAccept)
 {
-    sendData(addrTo, &dataByte, 1, needAccept);
+    return sendData(addrTo, &dataByte, 1, needAccept);
 }
-void IR_Encoder::sendData(uint16_t addrTo, uint8_t *data, uint8_t len, bool needAccept){
+IR_SendResult IR_Encoder::sendData(uint16_t addrTo, uint8_t *data, uint8_t len, bool needAccept){
-    sendDataFULL(id, addrTo, data, len, needAccept);
+    return sendDataFULL(id, addrTo, data, len, needAccept);
 }
-void IR_Encoder::sendDataFULL(uint16_t addrFrom, uint16_t addrTo, uint8_t *data, uint8_t len, bool needAccept)
+IR_SendResult IR_Encoder::sendDataFULL(uint16_t addrFrom, uint16_t addrTo, uint8_t *data, uint8_t len, bool needAccept)
 {
    if (len > bytePerPack)
    {
        Serial.println("IR Pack to big");
-        return;
+        return IR_SendResult(false, 0);
    }
    constexpr uint8_t dataStart = msgBytes + addrBytes + addrBytes;
    memset(sendBuffer, 0x00, dataByteSizeMax);
@ -191,10 +193,14 @@ void IR_Encoder::sendDataFULL(uint16_t addrFrom, uint16_t addrTo, uint8_t *data,
    // отправка
    rawSend(sendBuffer, packSize);
    // Возвращаем результат отправки
    uint32_t sendTime = calculateSendTime(packSize);
    return IR_SendResult(true, sendTime);
 }
-void IR_Encoder::sendAccept(uint16_t addrTo, uint8_t customByte)
+IR_SendResult IR_Encoder::sendAccept(uint16_t addrTo, uint8_t customByte)
 {
    constexpr uint8_t packsize = msgBytes + addrBytes + 1U + crcBytes;
    memset(sendBuffer, 0x00, dataByteSizeMax);
@ -215,9 +221,13 @@ void IR_Encoder::sendAccept(uint16_t addrTo, uint8_t customByte)
    sendBuffer[5] = crc8(sendBuffer, 0, 5, poly2) & 0xFF;
    rawSend(sendBuffer, packsize);
    // Возвращаем результат отправки
    uint32_t sendTime = calculateSendTime(packsize);
    return IR_SendResult(true, sendTime);
 }
-void IR_Encoder::sendRequest(uint16_t addrTo)
+IR_SendResult IR_Encoder::sendRequest(uint16_t addrTo)
 {
    constexpr uint8_t packsize = msgBytes + addrBytes + addrBytes + crcBytes;
    memset(sendBuffer, 0x00, dataByteSizeMax);
@ -237,28 +247,32 @@ void IR_Encoder::sendRequest(uint16_t addrTo)
    sendBuffer[6] = crc8(sendBuffer, 0, 6, poly2) & 0xFF;
    rawSend(sendBuffer, packsize);
    // Возвращаем результат отправки
    uint32_t sendTime = calculateSendTime(packsize);
    return IR_SendResult(true, sendTime);
 }
-void IR_Encoder::sendBack(uint8_t data)
+IR_SendResult IR_Encoder::sendBack(uint8_t data)
 {
-    _sendBack(false, 0, &data, 1);
+    return _sendBack(false, 0, &data, 1);
 }
-void IR_Encoder::sendBack(uint8_t *data, uint8_t len)
+IR_SendResult IR_Encoder::sendBack(uint8_t *data, uint8_t len)
 {
-    _sendBack(false, 0, data, len);
+    return _sendBack(false, 0, data, len);
 }
-void IR_Encoder::sendBackTo(uint16_t addrTo, uint8_t *data, uint8_t len)
+IR_SendResult IR_Encoder::sendBackTo(uint16_t addrTo, uint8_t *data, uint8_t len)
 {
-    _sendBack(true, addrTo, data, len);
+    return _sendBack(true, addrTo, data, len);
 }
-void IR_Encoder::_sendBack(bool isAdressed, uint16_t addrTo, uint8_t *data, uint8_t len)
+IR_SendResult IR_Encoder::_sendBack(bool isAdressed, uint16_t addrTo, uint8_t *data, uint8_t len)
 {
    if (len > bytePerPack)
    {
-        return;
+        return IR_SendResult(false, 0);
    }
    memset(sendBuffer, 0x00, dataByteSizeMax);
    uint8_t dataStart = msgBytes + addrBytes + (isAdressed ? addrBytes : 0);
@ -290,6 +304,10 @@ void IR_Encoder::_sendBack(bool isAdressed, uint16_t addrTo, uint8_t *data, uint
    // отправка
    rawSend(sendBuffer, packSize);
    // Возвращаем результат отправки
    uint32_t sendTime = calculateSendTime(packSize);
    return IR_SendResult(true, sendTime);
 }
 void IR_Encoder::setDecoder_isSending()
@ -314,6 +332,12 @@ void IR_Encoder::rawSend(uint8_t *ptr, uint8_t len)
        // TODO: Обработка повторной отправки
        return;
    }
    // Проверка на переполнение буфера
    if (len > dataByteSizeMax)
    {
        return;
    }
    // Serial.println("START");
    setDecoder_isSending();
@ -498,6 +522,91 @@ uint8_t IR_Encoder::bitLow[2] = {
    (bitPauseTakts / 2 + bitActiveTakts) * 2 - 1,
    (bitPauseTakts)-1};
 uint32_t IR_Encoder::calculateSendTime(uint8_t packSize) const
 {
    // Расчет времени отправки пакета в миллисекундах
    // Время преамбулы: preambPulse * 2 фронта * bitTakts тактов
    uint32_t preambTime = preambPulse * 2 * bitTakts;
    // Время данных: количество бит * bitTakts тактов
    uint32_t dataTime = packSize * 8 * bitTakts;
    // Время синхронизации: syncBits * 2 фронта * bitTakts тактов
    uint32_t syncTime = syncBits * 2 * bitTakts;
    // Общее время в тактах
    uint32_t totalTakts = preambTime + dataTime + syncTime;
    // Конвертируем в миллисекунды
    // carrierPeriod - период несущей в микросекундах
    // totalTakts * carrierPeriod / 1000 = время в миллисекундах
    uint32_t sendTimeMs = (totalTakts * carrierPeriod) / 1000;
    return sendTimeMs;
 }
 // Функции для тестирования времени отправки без фактической отправки
 uint32_t IR_Encoder::testSendTime(uint16_t addrTo, uint8_t dataByte, bool needAccept) const
 {
    return testSendTime(addrTo, &dataByte, 1, needAccept);
 }
 uint32_t IR_Encoder::testSendTime(uint16_t addrTo, uint8_t *data, uint8_t len, bool needAccept) const
 {
    return testSendTimeFULL(id, addrTo, data, len, needAccept);
 }
 uint32_t IR_Encoder::testSendTimeFULL(uint16_t addrFrom, uint16_t addrTo, uint8_t *data, uint8_t len, bool needAccept) const
 {
    if (len > bytePerPack)
    {
        return 0; // Возвращаем 0 для недопустимого размера
    }
    uint8_t packSize = msgBytes + addrBytes + addrBytes + len + crcBytes;
    return calculateSendTime(packSize);
 }
 uint32_t IR_Encoder::testSendAccept(uint16_t addrTo, uint8_t customByte) const
 {
    constexpr uint8_t packsize = msgBytes + addrBytes + 1U + crcBytes;
    return calculateSendTime(packsize);
 }
 uint32_t IR_Encoder::testSendRequest(uint16_t addrTo) const
 {
    constexpr uint8_t packsize = msgBytes + addrBytes + addrBytes + crcBytes;
    return calculateSendTime(packsize);
 }
 uint32_t IR_Encoder::testSendBack(uint8_t data) const
 {
    return testSendBack(false, 0, &data, 1);
 }
 uint32_t IR_Encoder::testSendBack(uint8_t *data, uint8_t len) const
 {
    return testSendBack(false, 0, data, len);
 }
 uint32_t IR_Encoder::testSendBackTo(uint16_t addrTo, uint8_t *data, uint8_t len) const
 {
    return testSendBack(true, addrTo, data, len);
 }
 uint32_t IR_Encoder::testSendBack(bool isAdressed, uint16_t addrTo, uint8_t *data, uint8_t len) const
 {
    if (len > bytePerPack)
    {
        return 0; // Возвращаем 0 для недопустимого размера
    }
    uint8_t packSize = msgBytes + addrBytes + (isAdressed ? addrBytes : 0) + min(uint8_t(1), len) + crcBytes;
    return calculateSendTime(packSize);
 }
 // uint8_t* IR_Encoder::bitHigh = new uint8_t[2]{
 //         (bitPauseTakts) * 2 - 0,
 //         (bitActiveTakts) * 2 - 0};
--- a/IR_Encoder.h
+++ b/IR_Encoder.h
@ -3,6 +3,15 @@
 // TODO: Отложенная передача после завершения приема
 // Структура для возврата результата отправки
 struct IR_SendResult {
    bool success;           // Флаг успешности отправки
    uint32_t sendTimeMs;    // Время отправки пакета в миллисекундах
    IR_SendResult(bool success = false, uint32_t sendTimeMs = 0) 
        : success(success), sendTimeMs(sendTimeMs) {}
 };
 class IR_DecoderRaw;
 class IR_Encoder : public IR_FOX
 {
@ -30,17 +39,27 @@ public:
    void setBlindDecoders(IR_DecoderRaw *decoders[], uint8_t count);
    void rawSend(uint8_t *ptr, uint8_t len);
-    void sendData(uint16_t addrTo, uint8_t dataByte, bool needAccept = false);
+    IR_SendResult sendData(uint16_t addrTo, uint8_t dataByte, bool needAccept = false);
-    void sendData(uint16_t addrTo, uint8_t *data = nullptr, uint8_t len = 0, bool needAccept = false);
+    IR_SendResult sendData(uint16_t addrTo, uint8_t *data = nullptr, uint8_t len = 0, bool needAccept = false);
-    void sendDataFULL(uint16_t addrFrom, uint16_t addrTo, uint8_t *data = nullptr, uint8_t len = 0, bool needAccept = false);
+    IR_SendResult sendDataFULL(uint16_t addrFrom, uint16_t addrTo, uint8_t *data = nullptr, uint8_t len = 0, bool needAccept = false);
-    void sendAccept(uint16_t addrTo, uint8_t customByte = 0);
+    IR_SendResult sendAccept(uint16_t addrTo, uint8_t customByte = 0);
-    void sendRequest(uint16_t addrTo);
+    IR_SendResult sendRequest(uint16_t addrTo);
-    void sendBack(uint8_t data);
+    IR_SendResult sendBack(uint8_t data);
-    void sendBack(uint8_t *data = nullptr, uint8_t len = 0);
+    IR_SendResult sendBack(uint8_t *data = nullptr, uint8_t len = 0);
-    void sendBackTo(uint16_t addrTo, uint8_t *data = nullptr, uint8_t len = 0);
+    IR_SendResult sendBackTo(uint16_t addrTo, uint8_t *data = nullptr, uint8_t len = 0);
    // Функция для тестирования времени отправки без фактической отправки
    uint32_t testSendTime(uint16_t addrTo, uint8_t dataByte, bool needAccept = false) const;
    uint32_t testSendTime(uint16_t addrTo, uint8_t *data = nullptr, uint8_t len = 0, bool needAccept = false) const;
    uint32_t testSendTimeFULL(uint16_t addrFrom, uint16_t addrTo, uint8_t *data = nullptr, uint8_t len = 0, bool needAccept = false) const;
    uint32_t testSendAccept(uint16_t addrTo, uint8_t customByte = 0) const;
    uint32_t testSendRequest(uint16_t addrTo) const;
    uint32_t testSendBack(uint8_t data) const;
    uint32_t testSendBack(uint8_t *data = nullptr, uint8_t len = 0) const;
    uint32_t testSendBackTo(uint16_t addrTo, uint8_t *data = nullptr, uint8_t len = 0) const;
    inline bool isBusy() const { return isSending;}
@ -50,11 +69,13 @@ public:
    void _isr();
 private:
-    void _sendBack(bool isAdressed, uint16_t addrTo, uint8_t *data, uint8_t len);
+    IR_SendResult _sendBack(bool isAdressed, uint16_t addrTo, uint8_t *data, uint8_t len);
    void setDecoder_isSending();
    void sendByte(uint8_t byte, bool *prev, bool LOW_FIRST);
    void addSync(bool *prev, bool *next);
    uint32_t calculateSendTime(uint8_t packSize) const;
    uint32_t testSendBack(bool isAdressed, uint16_t addrTo, uint8_t *data, uint8_t len) const;
    void send_HIGH(bool = 1);
    void send_LOW();
    void send_EMPTY(uint8_t count);