398 lines
15 KiB
C++
398 lines
15 KiB
C++
#include "ir_control.h"
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// IRremoteESP8266库的接收器对象
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// 增加缓冲区大小到500以支持长信号,超时设置为15ms
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IRrecv irrecv(IR_RECEIVE_PIN, 500, 15);
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void initIRControl() {
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// 配置RMT发送通道
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rmt_config_t rmt_tx_config = RMT_DEFAULT_CONFIG_TX((gpio_num_t)IR_SEND_PIN, RMT_TX_CHANNEL);
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rmt_tx_config.clk_div = RMT_CLK_DIV;
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rmt_tx_config.mem_block_num = RMT_MEM_BLOCK_NUM;
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rmt_tx_config.tx_config.carrier_en = RMT_TX_CARRIER_EN;
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rmt_tx_config.tx_config.carrier_freq_hz = RMT_TX_CARRIER_FREQ_HZ;
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rmt_tx_config.tx_config.carrier_duty_percent = RMT_TX_CARRIER_DUTY_PERCENT;
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rmt_tx_config.tx_config.carrier_level = RMT_TX_CARRIER_LEVEL;
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rmt_tx_config.tx_config.idle_level = RMT_IDLE_LEVEL;
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rmt_tx_config.tx_config.idle_output_en = true;
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esp_err_t err = rmt_config(&rmt_tx_config);
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if (err != ESP_OK) {
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Serial.printf("RMT发送通道配置失败: %s\n", esp_err_to_name(err));
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return;
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}
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err = rmt_driver_install(RMT_TX_CHANNEL, 0, 0);
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if (err != ESP_OK) {
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Serial.printf("RMT发送驱动安装失败: %s\n", esp_err_to_name(err));
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return;
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}
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Serial.println("红外控制模块初始化完成 (使用RMT发送 + IRremoteESP8266接收)");
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Serial.printf("发送引脚: %d (RMT通道: %d)\n", IR_SEND_PIN, RMT_TX_CHANNEL);
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Serial.printf("接收引脚: %d (IRremoteESP8266)\n", IR_RECEIVE_PIN);
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Serial.printf("载波频率: %d Hz\n", RMT_TX_CARRIER_FREQ_HZ);
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Serial.printf("时钟分辨率: %d us\n", RMT_CLK_DIV);
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Serial.printf("接收缓冲区大小: 500, 超时: 15ms\n");
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// 初始化IRremoteESP8266接收器
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irrecv.enableIRIn(); // 启用红外接收
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Serial.println("IRremoteESP8266接收器已启用");
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}
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bool checkIRSignalStart() {
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// 使用IRremoteESP8266检查是否有信号开始
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decode_results results;
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// 尝试解码,但不等待完整信号
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if (irrecv.decode(&results, nullptr, 0, false)) {
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// 有信号开始,恢复接收状态
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irrecv.resume();
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return true;
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}
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return false;
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}
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IRSignal receiveIRSignal() {
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IRSignal signal;
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signal.markTimes = nullptr;
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signal.spaceTimes = nullptr;
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signal.markCount = 0;
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signal.spaceCount = 0;
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signal.carrierFreq = IR_CARRIER_FREQ;
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signal.isValid = false;
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Serial.println("开始接收红外信号 (使用IRremoteESP8266)...");
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Serial.println("请按下遥控器按键...");
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decode_results results;
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// 清空接收缓冲区
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irrecv.resume();
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// 等待接收完整的红外信号
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unsigned long startTime = millis();
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while (millis() - startTime < (RECEIVE_TIMEOUT_US / 1000)) {
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if (irrecv.decode(&results)) {
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Serial.printf("检测到红外信号!原始数据长度: %d\n", results.rawlen);
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Serial.printf("Raw数组总长度: %d\n", results.rawlen);
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// 检查缓冲区溢出
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if (results.overflow) {
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Serial.println("警告: 接收缓冲区溢出!信号可能不完整");
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Serial.println("建议: 增加缓冲区大小或检查信号长度");
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}
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// 检查信号长度是否合理(典型红外信号应该有足够的数据)
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if (results.rawlen < 10) {
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Serial.printf("警告: 信号长度过短 (%d),可能不是完整信号\n", results.rawlen);
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} else if (results.rawlen >= 490) { // 接近缓冲区上限
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Serial.printf("警告: 信号长度接近缓冲区上限 (%d/500),可能被截断\n", results.rawlen);
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}
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// 打印接收到的协议信息
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Serial.printf("协议: %s\n", typeToString(results.decode_type).c_str());
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Serial.printf("值: 0x%08X\n", results.value);
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Serial.printf("位数: %d\n", results.bits);
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if (results.rawlen > 1) {
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// IRremoteESP8266的rawbuf包含原始时序数据
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// rawbuf[0]是未使用的,实际数据从rawbuf[1]开始
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// 数据格式:mark, space, mark, space, ...
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int dataLength = results.rawlen - 1; // 减去未使用的第一个元素
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// 计算mark和space的数量
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signal.markCount = (dataLength + 1) / 2; // 奇数位置是mark
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signal.spaceCount = dataLength / 2; // 偶数位置是space
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Serial.printf("数据长度: %d, mark数量: %d, space数量: %d\n",
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dataLength, signal.markCount, signal.spaceCount);
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// 分配mark时间数组
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if (signal.markCount > 0) {
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signal.markTimes = (unsigned int*)malloc(signal.markCount * sizeof(unsigned int));
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if (signal.markTimes == nullptr) {
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Serial.println("mark时间数组内存分配失败");
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irrecv.resume();
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return signal;
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}
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// 提取mark时间(奇数索引:1, 3, 5, ...)
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for (int i = 0; i < signal.markCount; i++) {
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int rawIndex = i * 2 + 1; // 1, 3, 5, ...
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if (rawIndex < results.rawlen) {
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// IRremoteESP8266的时间单位是tick,需要转换为微秒
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// 默认tick = 50us
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signal.markTimes[i] = results.rawbuf[rawIndex] * kRawTick;
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}
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}
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}
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// 分配space时间数组
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if (signal.spaceCount > 0) {
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signal.spaceTimes = (unsigned int*)malloc(signal.spaceCount * sizeof(unsigned int));
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if (signal.spaceTimes == nullptr) {
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Serial.println("space时间数组内存分配失败");
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if (signal.markTimes != nullptr) {
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free(signal.markTimes);
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signal.markTimes = nullptr;
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}
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irrecv.resume();
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return signal;
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}
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// 提取space时间(偶数索引:2, 4, 6, ...)
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for (int i = 0; i < signal.spaceCount; i++) {
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int rawIndex = i * 2 + 2; // 2, 4, 6, ...
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if (rawIndex < results.rawlen) {
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// IRremoteESP8266的时间单位是tick,需要转换为微秒
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signal.spaceTimes[i] = results.rawbuf[rawIndex] * kRawTick;
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}
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}
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}
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signal.isValid = true;
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Serial.printf("IRremoteESP8266信号接收成功,mark数量: %d, space数量: %d\n",
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signal.markCount, signal.spaceCount);
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// 检查信号头部特征(典型的9000us mark + 4500us space)
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if (signal.markCount > 0 && signal.spaceCount > 0) {
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unsigned int firstMark = signal.markTimes[0];
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unsigned int firstSpace = signal.spaceTimes[0];
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Serial.printf("信号头部: mark=%dus, space=%dus\n", firstMark, firstSpace);
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// 检查是否有典型的信号头
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if (firstMark > 8000 && firstMark < 10000 && firstSpace > 3500 && firstSpace < 5500) {
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Serial.println("检测到标准信号头 (约9ms mark + 4.5ms space)");
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} else {
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Serial.println("警告: 信号头不符合标准格式,可能丢失或不完整");
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}
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}
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// 打印前几个时序数据用于调试
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Serial.print("前几个时序数据(us): ");
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for (int i = 0; i < min(10, (int)results.rawlen - 1); i++) {
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Serial.printf("%d ", results.rawbuf[i + 1] * kRawTick);
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}
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Serial.println();
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// 打印原始数据的十六进制表示
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Serial.print("原始数据(tick): ");
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for (int i = 1; i < min(11, (int)results.rawlen); i++) {
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Serial.printf("%d ", results.rawbuf[i]);
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}
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Serial.println();
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} else {
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Serial.println("接收到的信号数据长度不足");
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}
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// 恢复接收状态
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irrecv.resume();
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break;
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}
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// 短暂延时避免CPU占用过高
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delay(10);
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}
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if (!signal.isValid) {
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Serial.println("IRremoteESP8266接收超时或无有效信号");
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Serial.println("请检查:");
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Serial.println("1. 遥控器是否有电");
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Serial.println("2. 红外接收器是否正确连接到引脚 " + String(IR_RECEIVE_PIN));
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Serial.println("3. 遥控器是否对准红外接收器");
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}
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return signal;
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}
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// generateCarrier函数已被RMT模块替代,不再需要
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bool sendIRSignal(const IRSignal& signal) {
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if (!isValidIRSignal(signal)) {
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Serial.println("信号无效,无法发送");
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return false;
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}
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Serial.println("开始发送红外信号 (使用RMT)...");
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Serial.printf("载波频率: %d Hz\n", signal.carrierFreq);
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Serial.printf("mark数量: %d, space数量: %d\n", signal.markCount, signal.spaceCount);
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// 计算需要的RMT项目数量
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int maxCount = max(signal.markCount, signal.spaceCount);
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size_t item_count = maxCount;
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// 计算并显示raw数组总长度(mark + space的总数)
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int totalRawLength = signal.markCount + signal.spaceCount;
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Serial.printf("发送Raw数组总长度: %d (mark: %d + space: %d)\n",
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totalRawLength, signal.markCount, signal.spaceCount);
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// 分配RMT项目数组
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rmt_item32_t* items = (rmt_item32_t*)malloc(item_count * sizeof(rmt_item32_t));
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if (items == nullptr) {
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Serial.println("RMT项目内存分配失败");
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return false;
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}
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// 构建RMT数据项
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for (int i = 0; i < maxCount; i++) {
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items[i].level0 = 1; // mark期间为高电平(载波调制)
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items[i].duration0 = (i < signal.markCount) ? signal.markTimes[i] : 0;
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items[i].level1 = 0; // space期间为低电平(无载波)
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items[i].duration1 = (i < signal.spaceCount) ? signal.spaceTimes[i] : 0;
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}
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// 发送RMT数据
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esp_err_t err = rmt_write_items(RMT_TX_CHANNEL, items, item_count, true);
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if (err != ESP_OK) {
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Serial.printf("RMT发送失败: %s\n", esp_err_to_name(err));
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free(items);
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return false;
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}
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// 等待发送完成
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err = rmt_wait_tx_done(RMT_TX_CHANNEL, pdMS_TO_TICKS(1000));
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if (err != ESP_OK) {
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Serial.printf("RMT发送等待超时: %s\n", esp_err_to_name(err));
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free(items);
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return false;
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}
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free(items);
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Serial.println("RMT信号发送完成");
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return true;
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}
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void freeIRSignal(IRSignal& signal) {
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if (signal.markTimes != nullptr) {
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free(signal.markTimes);
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signal.markTimes = nullptr;
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}
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if (signal.spaceTimes != nullptr) {
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free(signal.spaceTimes);
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signal.spaceTimes = nullptr;
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}
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signal.markCount = 0;
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signal.spaceCount = 0;
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signal.carrierFreq = 0;
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signal.isValid = false;
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}
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IRSignal copyIRSignal(const IRSignal& source) {
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IRSignal copy;
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copy.markTimes = nullptr;
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copy.spaceTimes = nullptr;
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copy.markCount = 0;
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copy.spaceCount = 0;
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copy.carrierFreq = 0;
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copy.isValid = false;
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if (!isValidIRSignal(source)) {
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return copy;
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}
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// 复制mark时间数组
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if (source.markCount > 0 && source.markTimes != nullptr) {
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copy.markTimes = (unsigned int*)malloc(source.markCount * sizeof(unsigned int));
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if (copy.markTimes == nullptr) {
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Serial.println("复制mark时间数组时内存分配失败");
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return copy;
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}
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for (int i = 0; i < source.markCount; i++) {
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copy.markTimes[i] = source.markTimes[i];
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}
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copy.markCount = source.markCount;
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}
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// 复制space时间数组
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if (source.spaceCount > 0 && source.spaceTimes != nullptr) {
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copy.spaceTimes = (unsigned int*)malloc(source.spaceCount * sizeof(unsigned int));
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if (copy.spaceTimes == nullptr) {
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Serial.println("复制space时间数组时内存分配失败");
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if (copy.markTimes != nullptr) {
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free(copy.markTimes);
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copy.markTimes = nullptr;
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copy.markCount = 0;
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}
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return copy;
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}
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for (int i = 0; i < source.spaceCount; i++) {
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copy.spaceTimes[i] = source.spaceTimes[i];
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}
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copy.spaceCount = source.spaceCount;
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}
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copy.carrierFreq = source.carrierFreq;
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copy.isValid = true;
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return copy;
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}
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void printIRSignal(const IRSignal& signal, int maxPrint) {
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if (!isValidIRSignal(signal)) {
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Serial.println("信号无效,无法打印");
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return;
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}
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Serial.println("=== 红外信号数据 ===");
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Serial.print("载波频率: ");
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Serial.print(signal.carrierFreq);
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Serial.println(" Hz");
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Serial.print("mark数量: ");
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Serial.println(signal.markCount);
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Serial.print("space数量: ");
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Serial.println(signal.spaceCount);
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Serial.print("信号有效: ");
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Serial.println(signal.isValid ? "是" : "否");
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// 打印mark时间
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int markPrintCount = (maxPrint == 0) ? signal.markCount : min(maxPrint, signal.markCount);
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Serial.println("Mark时间 (微秒):");
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for (int i = 0; i < markPrintCount; i++) {
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Serial.print("Mark ");
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Serial.print(i);
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Serial.print(": ");
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Serial.print(signal.markTimes[i]);
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Serial.println(" us");
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}
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if (markPrintCount < signal.markCount) {
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Serial.print("... 还有 ");
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Serial.print(signal.markCount - markPrintCount);
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Serial.println(" 个mark数据点未显示");
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}
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// 打印space时间
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int spacePrintCount = (maxPrint == 0) ? signal.spaceCount : min(maxPrint, signal.spaceCount);
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Serial.println("Space时间 (微秒):");
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for (int i = 0; i < spacePrintCount; i++) {
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Serial.print("Space ");
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Serial.print(i);
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Serial.print(": ");
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Serial.print(signal.spaceTimes[i]);
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Serial.println(" us");
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}
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if (spacePrintCount < signal.spaceCount) {
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Serial.print("... 还有 ");
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Serial.print(signal.spaceCount - spacePrintCount);
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Serial.println(" 个space数据点未显示");
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}
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Serial.println("==================");
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}
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bool isValidIRSignal(const IRSignal& signal) {
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return (signal.isValid &&
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((signal.markTimes != nullptr && signal.markCount > 0) ||
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(signal.spaceTimes != nullptr && signal.spaceCount > 0)) &&
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signal.carrierFreq > 0);
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} |