p_dynamic_electrocardiograph
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electrocardiograph_upper
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electrocardiograph_upper/mainwindow.cpp

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  1. #include "mainwindow.h"
  3. #include <QDateTime>
  4. #include <QtConcurrent>
  6. #include "./ui_mainwindow.h"
  8. using namespace iflytop;
  9. using namespace xsync;
  10. using namespace std;
  12. static MainWindow *m_mainWindow;
  13. #define TAG "MainWindow"
  15. static const char *fmt(const char *fmt, ...) {
  16. va_list args;
  17. va_start(args, fmt);
  18. static char buf[1024] = {0};
  19. vsnprintf(buf, sizeof(buf), fmt, args);
  20. va_end(args);
  21. return buf;
  22. }
  24. static const uint32_t str2int(QString str) {
  25. // 如果0x开头,按16进制转换
  26. // 如果0b开头,按2进制转换
  27. // 否则按10进制转换
  29. // 去除掉str中_
  30. str.remove("_");
  32. if (str.startsWith("0x")) {
  33. return str.toUInt(nullptr, 16);
  34. } else if (str.startsWith("0b")) {
  35. // remove 0b
  36. str.remove(0, 2);
  37. return str.toUInt(nullptr, 2);
  38. } else {
  39. return str.toUInt(nullptr, 10);
  40. }
  41. }
  43. void MainWindow::log_output(QtMsgType type, const QMessageLogContext &context, const QString &msg) {
  44. QString text;
  45. text.append(msg);
  46. m_mainWindow->append_log_signal(text);
  47. }
  49. void MainWindow::append_log_slot(QString text) { ui->logbrowser->append(text); }
  51. void MainWindow::updateUI_timeCodeInfo_slot(QString text) { ui->TimecodeDisplayer->setText(text); }
  52. void MainWindow::updateUI_cameraSyncInfo_slot(QString text) { ui->CameraSyncIndex->setText(text); }
  53. void MainWindow::updateUI_reg_slot(int32_t regadd, uint32_t regval) {
  54. auto it = m_regdisplayer.find(regadd);
  55. if (it != m_regdisplayer.end()) {
  56. ZLOGI(TAG, "updateUI_reg_slot %x %d", regadd, regval);
  57. it->second->regBrowser->setText(QString::number(regval, 16));
  58. }
  59. }
  60. void MainWindow::doinui_slot(QFunction func) {
  61. if (func.get()) func.get()();
  62. }
  64. void MainWindow::push_reg(QWidget *parent, int off, const char *regname, int32_t regadd, int32_t rwflag, reg_val_type_t regvaltype) {
  65. DispalyRegIterm *regitem = new DispalyRegIterm();
  66. regitem->regvaltype = regvaltype;
  67. {
  68. auto *label = new QLabel(parent);
  69. label->setObjectName(QString::fromUtf8("label"));
  70. label->setText(QString(fmt("%s(0x%04x)", regname, regadd)));
  71. QSizePolicy sizePolicy1(QSizePolicy::Minimum, QSizePolicy::Expanding);
  72. sizePolicy1.setHorizontalStretch(0);
  73. sizePolicy1.setVerticalStretch(0);
  74. sizePolicy1.setHeightForWidth(label->sizePolicy().hasHeightForWidth());
  75. label->setSizePolicy(sizePolicy1);
  76. label->setMinimumSize(QSize(300, 0));
  77. label->setMaximumSize(QSize(16777215, 16777215));
  78. ui->reg_table->addWidget(label, off, 0, 1, 1);
  79. regitem->label = label;
  80. }
  81. {
  82. auto *textbrowser = new QTextBrowser(parent);
  83. textbrowser->setObjectName(QString::fromUtf8("textbrowser"));
  84. textbrowser->setEnabled(true);
  85. textbrowser->setText(QString("unset"));
  86. QSizePolicy sizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding);
  87. sizePolicy.setHorizontalStretch(0);
  88. sizePolicy.setVerticalStretch(0);
  89. sizePolicy.setHeightForWidth(textbrowser->sizePolicy().hasHeightForWidth());
  91. textbrowser->setSizePolicy(sizePolicy);
  92. textbrowser->setMaximumSize(QSize(16777215, 16777215));
  94. ui->reg_table->addWidget(textbrowser, off, 1, 1, 1);
  95. regitem->regBrowser = textbrowser;
  96. }
  98. {
  99. auto *textEdit = new QTextEdit(parent);
  100. textEdit->setObjectName(QString::fromUtf8("textEdit"));
  101. textEdit->setEnabled(true);
  102. QSizePolicy sizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding);
  103. sizePolicy.setHorizontalStretch(0);
  104. sizePolicy.setVerticalStretch(0);
  105. sizePolicy.setHeightForWidth(textEdit->sizePolicy().hasHeightForWidth());
  107. textEdit->setSizePolicy(sizePolicy);
  108. textEdit->setMaximumSize(QSize(16777215, 16777215));
  110. ui->reg_table->addWidget(textEdit, off, 2, 1, 1);
  111. regitem->regEditer = textEdit;
  112. }
  113. {
  114. // new button
  115. auto *button = new QPushButton(parent);
  116. button->setObjectName(QString::fromUtf8("button"));
  117. button->setText(QString("Write"));
  118. QSizePolicy sizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding);
  119. sizePolicy.setHorizontalStretch(0);
  120. sizePolicy.setVerticalStretch(0);
  121. sizePolicy.setHeightForWidth(button->sizePolicy().hasHeightForWidth());
  122. button->setSizePolicy(sizePolicy);
  124. // connect(this,
  125. connect(button, &QPushButton::clicked, [this, regadd](bool) { //
  126. QString regval_str = m_regdisplayer[regadd]->regEditer->toPlainText();
  127. uint32_t regval = str2int(regval_str);
  128. ZLOGI(TAG, "write reg 0x%04x %d", regadd, regval);
  130. uint32_t readbackval = 0;
  131. auto ecode = Xsync::Ins().reg_write(regadd, regval, readbackval);
  132. if (ecode == kxs_ec_success) {
  133. ZLOGI(TAG, "write reg 0x%04x %d success", regadd, regval);
  134. m_regdisplayer[regadd]->regvalcache = readbackval;
  135. updateUI_reg(regadd);
  136. } else {
  137. ZLOGE(TAG, "write reg 0x%04x %d fail,ecode:%s", regadd, regval, xs_error_code_2_str(ecode));
  138. }
  140. });
  142. regitem->writerButton = button;
  143. ui->reg_table->addWidget(button, off, 3, 1, 1);
  144. }
  145. m_regdisplayer[regadd] = regitem;
  146. }
  148. void MainWindow::updateUI_reg(uint32_t regoff) {
  149. // m_regdisplayer[regoff]->regBrowser->setText("0x" + QString::number(regValue, 16));
  151. uint32_t regval = m_regdisplayer[regoff]->regvalcache;
  152. auto *regBrowser = m_regdisplayer[regoff]->regBrowser;
  153. reg_val_type_t regvaltype = m_regdisplayer[regoff]->regvaltype;
  155. if (regvaltype == kreg_val_type_dotted_hex) {
  156. regBrowser->setText(QString(fmt("%02x.%02x.%02x.%02x", (regval >> 0) & 0xff, (regval >> 8) & 0xff, (regval >> 16) & 0xff, (regval >> 24) & 0xff)));
  157. } else if (regvaltype == kreg_val_type_dotted_decimal) {
  158. regBrowser->setText(QString(fmt("%d.%d.%d.%d", (regval >> 0) & 0xff, (regval >> 8) & 0xff, (regval >> 16) & 0xff, (regval >> 24) & 0xff)));
  159. } else if (regvaltype == kreg_val_type_str) {
  160. char text[5] = {0};
  161. memcpy(text, &regval, 4);
  162. regBrowser->setText(QString(text));
  163. } else if (regvaltype == kreg_val_type_hex) {
  164. regBrowser->setText(QString(fmt("0x%08x", regval)));
  165. } else if (regvaltype == kreg_val_type_decimal) {
  166. regBrowser->setText(QString::number(regval, 10));
  167. } else if (regvaltype == kreg_val_type_binary) {
  168. regBrowser->setText(QString::number(regval, 2));
  169. }
  170. }
  172. void MainWindow::construct_reg_table() { //
  173. int regoff = 1;
  175. push_reg(ui->gridLayoutWidget, regoff++, "software_version", reg::ksoftware_version, 0, kreg_val_type_dotted_decimal);
  176. push_reg(ui->gridLayoutWidget, regoff++, "manufacturer0", reg::kmanufacturer0, 0, kreg_val_type_str);
  177. push_reg(ui->gridLayoutWidget, regoff++, "manufacturer1", reg::kmanufacturer1, 0, kreg_val_type_str);
  178. push_reg(ui->gridLayoutWidget, regoff++, "product_type_id", reg::kproduct_type_id, 0, kreg_val_type_decimal);
  179. push_reg(ui->gridLayoutWidget, regoff++, "sn_id0", reg::ksn_id0, 0, kreg_val_type_dotted_hex);
  180. push_reg(ui->gridLayoutWidget, regoff++, "sn_id1", reg::ksn_id1, 0, kreg_val_type_dotted_hex);
  181. push_reg(ui->gridLayoutWidget, regoff++, "sn_id2", reg::ksn_id2, 0, kreg_val_type_dotted_hex);
  182. push_reg(ui->gridLayoutWidget, regoff++, "mac0", reg::kmac0, 0, kreg_val_type_dotted_hex);
  183. push_reg(ui->gridLayoutWidget, regoff++, "mac1", reg::kmac1, 0, kreg_val_type_dotted_hex);
  184. push_reg(ui->gridLayoutWidget, regoff++, "stm32_ip", reg::kstm32_ip, 0, kreg_val_type_dotted_decimal);
  185. push_reg(ui->gridLayoutWidget, regoff++, "stm32_gw", reg::kstm32_gw, 0, kreg_val_type_dotted_decimal);
  186. push_reg(ui->gridLayoutWidget, regoff++, "stm32_netmask", reg::kstm32_netmask, 0, kreg_val_type_dotted_decimal);
  187. push_reg(ui->gridLayoutWidget, regoff++, "stm32_camera_sync_signal_count", reg::kstm32_camera_sync_signal_count, 0, kreg_val_type_decimal);
  188. push_reg(ui->gridLayoutWidget, regoff++, "fpga_reg_test_reg0", reg::kfpga_info_reg0, 0, kreg_val_type_hex);
  189. push_reg(ui->gridLayoutWidget, regoff++, "fpga_reg_test_reg1", reg::kfpga_info_reg1, 0, kreg_val_type_hex);
  190. push_reg(ui->gridLayoutWidget, regoff++, "fpga_reg_test_reg2", reg::kfpga_info_reg2, 0, kreg_val_type_hex);
  191. push_reg(ui->gridLayoutWidget, regoff++, "fpga_reg_test_reg3", reg::kfpga_info_reg3, 0, kreg_val_type_hex);
  192. push_reg(ui->gridLayoutWidget, regoff++, "fpga_reg_test_reg4", reg::kfpga_info_reg4, 0, kreg_val_type_hex);
  194. push_reg(ui->gridLayoutWidget, regoff++, "ttlin_module", reg::k_ttlin_module, 0, kreg_val_type_hex);
  195. push_reg(ui->gridLayoutWidget, regoff++, "ttlin_en_reg", reg::k_ttlin_en_reg, 0, kreg_val_type_decimal);
  196. push_reg(ui->gridLayoutWidget, regoff++, "ttlin1_freq_detector_reg", reg::k_ttlin1_freq_detector_reg, 0, kreg_val_type_decimal);
  197. push_reg(ui->gridLayoutWidget, regoff++, "ttlin2_freq_detector_reg", reg::k_ttlin2_freq_detector_reg, 0, kreg_val_type_decimal);
  198. push_reg(ui->gridLayoutWidget, regoff++, "ttlin3_freq_detector_reg", reg::k_ttlin3_freq_detector_reg, 0, kreg_val_type_decimal);
  199. push_reg(ui->gridLayoutWidget, regoff++, "ttlin4_freq_detector_reg", reg::k_ttlin4_freq_detector_reg, 0, kreg_val_type_decimal);
  200. push_reg(ui->gridLayoutWidget, regoff++, "ttlin1_filter_factor_reg", reg::k_ttlin1_filter_factor_reg, 0, kreg_val_type_decimal);
  201. push_reg(ui->gridLayoutWidget, regoff++, "ttlin2_filter_factor_reg", reg::k_ttlin2_filter_factor_reg, 0, kreg_val_type_decimal);
  202. push_reg(ui->gridLayoutWidget, regoff++, "ttlin3_filter_factor_reg", reg::k_ttlin3_filter_factor_reg, 0, kreg_val_type_decimal);
  203. push_reg(ui->gridLayoutWidget, regoff++, "ttlin4_filter_factor_reg", reg::k_ttlin4_filter_factor_reg, 0, kreg_val_type_decimal);
  205. /*******************************************************************************
  206. * TIMECODE输入模块 *
  207. *******************************************************************************/
  209. push_reg(ui->gridLayoutWidget, regoff++, "internal_timecode_module", reg::internal_timecode_module, 0, kreg_val_type_hex);
  210. push_reg(ui->gridLayoutWidget, regoff++, "internal_timecode_en", reg::internal_timecode_en, 0, kreg_val_type_decimal);
  211. push_reg(ui->gridLayoutWidget, regoff++, "internal_timecode_format", reg::internal_timecode_format, 0, kreg_val_type_decimal);
  212. push_reg(ui->gridLayoutWidget, regoff++, "internal_timecode_data0", reg::internal_timecode_data0, 0, kreg_val_type_decimal);
  213. push_reg(ui->gridLayoutWidget, regoff++, "internal_timecode_data1", reg::internal_timecode_data1, 0, kreg_val_type_decimal);
  215. push_reg(ui->gridLayoutWidget, regoff++, "external_timecode_module", reg::external_timecode_module, 0, kreg_val_type_hex);
  216. push_reg(ui->gridLayoutWidget, regoff++, "external_timecode_sig_selt", reg::external_timecode_sig_selt, 0, kreg_val_type_decimal);
  217. push_reg(ui->gridLayoutWidget, regoff++, "external_timecode_format", reg::external_timecode_format, 0, kreg_val_type_decimal);
  218. push_reg(ui->gridLayoutWidget, regoff++, "external_timecode_code0", reg::external_timecode_code0, 0, kreg_val_type_decimal);
  219. push_reg(ui->gridLayoutWidget, regoff++, "external_timecode_code1", reg::external_timecode_code1, 0, kreg_val_type_decimal);
  221. push_reg(ui->gridLayoutWidget, regoff++, "sys_timecode_module", reg::sys_timecode_module, 0, kreg_val_type_hex);
  222. push_reg(ui->gridLayoutWidget, regoff++, "sys_timecode_select", reg::sys_timecode_select, 0, kreg_val_type_decimal);
  223. push_reg(ui->gridLayoutWidget, regoff++, "sys_timecode_format", reg::sys_timecode_format, 0, kreg_val_type_decimal);
  224. push_reg(ui->gridLayoutWidget, regoff++, "sys_timecode_data0", reg::sys_timecode_data0, 0, kreg_val_type_decimal);
  225. push_reg(ui->gridLayoutWidget, regoff++, "sys_timecode_data1", reg::sys_timecode_data1, 0, kreg_val_type_decimal);
  227. push_reg(ui->gridLayoutWidget, regoff++, "timecode_output_module", reg::timecode_output_module, 0, kreg_val_type_hex);
  228. push_reg(ui->gridLayoutWidget, regoff++, "timecode_output_timecode0", reg::timecode_output_timecode0, 0, kreg_val_type_decimal);
  229. push_reg(ui->gridLayoutWidget, regoff++, "timecode_output_timecode1", reg::timecode_output_timecode1, 0, kreg_val_type_decimal);
  230. push_reg(ui->gridLayoutWidget, regoff++, "timecode_output_timecode_format", reg::timecode_output_timecode_format, 0, kreg_val_type_decimal);
  231. push_reg(ui->gridLayoutWidget, regoff++, "timecode_output_bnc_outut_level_select", reg::timecode_output_bnc_outut_level_select, 0, kreg_val_type_decimal);
  233. /*******************************************************************************
  234. * TTL输出模块配置 *
  235. *******************************************************************************/
  237. push_reg(ui->gridLayoutWidget, regoff++, "ttlout1_module", reg::kreg_ttlout1_module, 0, kreg_val_type_hex);
  238. push_reg(ui->gridLayoutWidget, regoff++, "ttlout1_signal_process_mode", reg::kreg_ttlout1_signal_process_mode, 0, kreg_val_type_decimal);
  239. push_reg(ui->gridLayoutWidget, regoff++, "ttlout1_input_signal_select", reg::kreg_ttlout1_input_signal_select, 0, kreg_val_type_decimal);
  240. push_reg(ui->gridLayoutWidget, regoff++, "ttlout1_pllout_freq_division_ctrl", reg::kreg_ttlout1_pllout_freq_division_ctrl, 0, kreg_val_type_decimal);
  241. push_reg(ui->gridLayoutWidget, regoff++, "ttlout1_pllout_freq_multiplication_ctrl", reg::kreg_ttlout1_pllout_freq_multiplication_ctrl, 0, kreg_val_type_decimal);
  242. push_reg(ui->gridLayoutWidget, regoff++, "ttlout1_pllout_polarity_ctrl", reg::kreg_ttlout1_pllout_polarity_ctrl, 0, kreg_val_type_decimal);
  243. push_reg(ui->gridLayoutWidget, regoff++, "ttlout1_pllout_trigger_edge_select", reg::kreg_ttlout1_pllout_trigger_edge_select, 0, kreg_val_type_decimal);
  244. push_reg(ui->gridLayoutWidget, regoff++, "ttlout1_forward_mode_polarity_ctrl", reg::kreg_ttlout1_forward_mode_polarity_ctrl, 0, kreg_val_type_decimal);
  245. push_reg(ui->gridLayoutWidget, regoff++, "ttlout1_freq_detect_bias", reg::kreg_ttlout1_freq_detect_bias, 0, kreg_val_type_decimal);
  246. push_reg(ui->gridLayoutWidget, regoff++, "ttlout1_placeholder0", reg::kreg_ttlout1_placeholder0, 0, kreg_val_type_decimal);
  247. push_reg(ui->gridLayoutWidget, regoff++, "ttlout1_sig_in_freq_detect", reg::kreg_ttlout1_sig_in_freq_detect, 0, kreg_val_type_decimal);
  248. push_reg(ui->gridLayoutWidget, regoff++, "ttlout1_sig_out_freq_detect", reg::kreg_ttlout1_sig_out_freq_detect, 0, kreg_val_type_decimal);
  250. push_reg(ui->gridLayoutWidget, regoff++, "ttlout2_module", reg::kreg_ttlout2_module, 0, kreg_val_type_hex);
  251. push_reg(ui->gridLayoutWidget, regoff++, "ttlout2_signal_process_mode", reg::kreg_ttlout2_signal_process_mode, 0, kreg_val_type_decimal);
  252. push_reg(ui->gridLayoutWidget, regoff++, "ttlout2_input_signal_select", reg::kreg_ttlout2_input_signal_select, 0, kreg_val_type_decimal);
  253. push_reg(ui->gridLayoutWidget, regoff++, "ttlout2_pllout_freq_division_ctrl", reg::kreg_ttlout2_pllout_freq_division_ctrl, 0, kreg_val_type_decimal);
  254. push_reg(ui->gridLayoutWidget, regoff++, "ttlout2_pllout_freq_multiplication_ctrl", reg::kreg_ttlout2_pllout_freq_multiplication_ctrl, 0, kreg_val_type_decimal);
  255. push_reg(ui->gridLayoutWidget, regoff++, "ttlout2_pllout_polarity_ctrl", reg::kreg_ttlout2_pllout_polarity_ctrl, 0, kreg_val_type_decimal);
  256. push_reg(ui->gridLayoutWidget, regoff++, "ttlout2_pllout_trigger_edge_select", reg::kreg_ttlout2_pllout_trigger_edge_select, 0, kreg_val_type_decimal);
  257. push_reg(ui->gridLayoutWidget, regoff++, "ttlout2_forward_mode_polarity_ctrl", reg::kreg_ttlout2_forward_mode_polarity_ctrl, 0, kreg_val_type_decimal);
  258. push_reg(ui->gridLayoutWidget, regoff++, "ttlout2_freq_detect_bias", reg::kreg_ttlout2_freq_detect_bias, 0, kreg_val_type_decimal);
  259. push_reg(ui->gridLayoutWidget, regoff++, "ttlout2_placeholder0", reg::kreg_ttlout2_placeholder0, 0, kreg_val_type_decimal);
  260. push_reg(ui->gridLayoutWidget, regoff++, "ttlout2_sig_in_freq_detect", reg::kreg_ttlout2_sig_in_freq_detect, 0, kreg_val_type_decimal);
  261. push_reg(ui->gridLayoutWidget, regoff++, "ttlout2_sig_out_freq_detect", reg::kreg_ttlout2_sig_out_freq_detect, 0, kreg_val_type_decimal);
  263. push_reg(ui->gridLayoutWidget, regoff++, "ttlout3_module", reg::kreg_ttlout3_module, 0, kreg_val_type_hex);
  264. push_reg(ui->gridLayoutWidget, regoff++, "ttlout3_signal_process_mode", reg::kreg_ttlout3_signal_process_mode, 0, kreg_val_type_decimal);
  265. push_reg(ui->gridLayoutWidget, regoff++, "ttlout3_input_signal_select", reg::kreg_ttlout3_input_signal_select, 0, kreg_val_type_decimal);
  266. push_reg(ui->gridLayoutWidget, regoff++, "ttlout3_pllout_freq_division_ctrl", reg::kreg_ttlout3_pllout_freq_division_ctrl, 0, kreg_val_type_decimal);
  267. push_reg(ui->gridLayoutWidget, regoff++, "ttlout3_pllout_freq_multiplication_ctrl", reg::kreg_ttlout3_pllout_freq_multiplication_ctrl, 0, kreg_val_type_decimal);
  268. push_reg(ui->gridLayoutWidget, regoff++, "ttlout3_pllout_polarity_ctrl", reg::kreg_ttlout3_pllout_polarity_ctrl, 0, kreg_val_type_decimal);
  269. push_reg(ui->gridLayoutWidget, regoff++, "ttlout3_pllout_trigger_edge_select", reg::kreg_ttlout3_pllout_trigger_edge_select, 0, kreg_val_type_decimal);
  270. push_reg(ui->gridLayoutWidget, regoff++, "ttlout3_forward_mode_polarity_ctrl", reg::kreg_ttlout3_forward_mode_polarity_ctrl, 0, kreg_val_type_decimal);
  271. push_reg(ui->gridLayoutWidget, regoff++, "ttlout3_freq_detect_bias", reg::kreg_ttlout3_freq_detect_bias, 0, kreg_val_type_decimal);
  272. push_reg(ui->gridLayoutWidget, regoff++, "ttlout3_placeholder0", reg::kreg_ttlout3_placeholder0, 0, kreg_val_type_decimal);
  273. push_reg(ui->gridLayoutWidget, regoff++, "ttlout3_sig_in_freq_detect", reg::kreg_ttlout3_sig_in_freq_detect, 0, kreg_val_type_decimal);
  274. push_reg(ui->gridLayoutWidget, regoff++, "ttlout3_sig_out_freq_detect", reg::kreg_ttlout3_sig_out_freq_detect, 0, kreg_val_type_decimal);
  276. push_reg(ui->gridLayoutWidget, regoff++, "ttlout4_module", reg::kreg_ttlout4_module, 0, kreg_val_type_hex);
  277. push_reg(ui->gridLayoutWidget, regoff++, "ttlout4_signal_process_mode", reg::kreg_ttlout4_signal_process_mode, 0, kreg_val_type_decimal);
  278. push_reg(ui->gridLayoutWidget, regoff++, "ttlout4_input_signal_select", reg::kreg_ttlout4_input_signal_select, 0, kreg_val_type_decimal);
  279. push_reg(ui->gridLayoutWidget, regoff++, "ttlout4_pllout_freq_division_ctrl", reg::kreg_ttlout4_pllout_freq_division_ctrl, 0, kreg_val_type_decimal);
  280. push_reg(ui->gridLayoutWidget, regoff++, "ttlout4_pllout_freq_multiplication_ctrl", reg::kreg_ttlout4_pllout_freq_multiplication_ctrl, 0, kreg_val_type_decimal);
  281. push_reg(ui->gridLayoutWidget, regoff++, "ttlout4_pllout_polarity_ctrl", reg::kreg_ttlout4_pllout_polarity_ctrl, 0, kreg_val_type_decimal);
  282. push_reg(ui->gridLayoutWidget, regoff++, "ttlout4_pllout_trigger_edge_select", reg::kreg_ttlout4_pllout_trigger_edge_select, 0, kreg_val_type_decimal);
  283. push_reg(ui->gridLayoutWidget, regoff++, "ttlout4_forward_mode_polarity_ctrl", reg::kreg_ttlout4_forward_mode_polarity_ctrl, 0, kreg_val_type_decimal);
  284. push_reg(ui->gridLayoutWidget, regoff++, "ttlout4_freq_detect_bias", reg::kreg_ttlout4_freq_detect_bias, 0, kreg_val_type_decimal);
  285. push_reg(ui->gridLayoutWidget, regoff++, "ttlout4_placeholder0", reg::kreg_ttlout4_placeholder0, 0, kreg_val_type_decimal);
  286. push_reg(ui->gridLayoutWidget, regoff++, "ttlout4_sig_in_freq_detect", reg::kreg_ttlout4_sig_in_freq_detect, 0, kreg_val_type_decimal);
  287. push_reg(ui->gridLayoutWidget, regoff++, "ttlout4_sig_out_freq_detect", reg::kreg_ttlout4_sig_out_freq_detect, 0, kreg_val_type_decimal);
  289. push_reg(ui->gridLayoutWidget, regoff++, "external_genlock_module", reg::external_genlock_module, 0, kreg_val_type_hex);
  290. push_reg(ui->gridLayoutWidget, regoff++, "external_genlock_freq_detect_bias", reg::external_genlock_freq_detect_bias, 0, kreg_val_type_decimal);
  291. push_reg(ui->gridLayoutWidget, regoff++, "external_genlock_freq", reg::external_genlock_freq, 0, kreg_val_type_decimal);
  293. push_reg(ui->gridLayoutWidget, regoff++, "internal_genlock_module", reg::internal_genlock_module, 0, kreg_val_type_hex);
  294. push_reg(ui->gridLayoutWidget, regoff++, "internal_genlock_ctrl_mode", reg::internal_genlock_ctrl_mode, 0, kreg_val_type_decimal);
  295. push_reg(ui->gridLayoutWidget, regoff++, "internal_genlock_en", reg::internal_genlock_en, 0, kreg_val_type_decimal);
  296. push_reg(ui->gridLayoutWidget, regoff++, "internal_genlock_format", reg::internal_genlock_format, 0, kreg_val_type_decimal);
  297. push_reg(ui->gridLayoutWidget, regoff++, "internal_genlock_freq", reg::internal_genlock_freq, 0, kreg_val_type_decimal);
  299. push_reg(ui->gridLayoutWidget, regoff++, "sys_genlock_module", reg::sys_genlock_module, 0, kreg_val_type_hex);
  300. push_reg(ui->gridLayoutWidget, regoff++, "sys_genlock_source", reg::sys_genlock_source, 0, kreg_val_type_decimal);
  301. push_reg(ui->gridLayoutWidget, regoff++, "sys_genlock_freq_detect_bias", reg::sys_genlock_freq_detect_bias, 0, kreg_val_type_decimal);
  302. push_reg(ui->gridLayoutWidget, regoff++, "sys_genlock_freq", reg::sys_genlock_freq, 0, kreg_val_type_decimal);
  304. push_reg(ui->gridLayoutWidget, regoff++, "internal_clock_module", reg::internal_clock_module, 0, kreg_val_type_hex);
  305. push_reg(ui->gridLayoutWidget, regoff++, "internal_clock_ctrl_mode", reg::internal_clock_ctrl_mode, 0, kreg_val_type_decimal);
  306. push_reg(ui->gridLayoutWidget, regoff++, "internal_clock_en", reg::internal_clock_en, 0, kreg_val_type_decimal);
  307. push_reg(ui->gridLayoutWidget, regoff++, "internal_clock_freq", reg::internal_clock_freq, 0, kreg_val_type_decimal);
  309. push_reg(ui->gridLayoutWidget, regoff++, "sys_clock_module", reg::sys_clock_module, 0, kreg_val_type_hex);
  310. push_reg(ui->gridLayoutWidget, regoff++, "sys_clock_source", reg::sys_clock_source, 0, kreg_val_type_decimal);
  311. push_reg(ui->gridLayoutWidget, regoff++, "sys_clock_freq_division_ctrl", reg::sys_clock_freq_division_ctrl, 0, kreg_val_type_decimal);
  312. push_reg(ui->gridLayoutWidget, regoff++, "sys_clock_freq_multiplication_ctrl", reg::sys_clock_freq_multiplication_ctrl, 0, kreg_val_type_decimal);
  313. push_reg(ui->gridLayoutWidget, regoff++, "sys_clock_freq_detect_bias", reg::sys_clock_freq_detect_bias, 0, kreg_val_type_decimal);
  314. push_reg(ui->gridLayoutWidget, regoff++, "sys_clock_trigger_edge_select", reg::sys_clock_trigger_edge_select, 0, kreg_val_type_decimal);
  315. push_reg(ui->gridLayoutWidget, regoff++, "sys_clock_infreq_detect", reg::sys_clock_infreq_detect, 0, kreg_val_type_decimal);
  316. push_reg(ui->gridLayoutWidget, regoff++, "sys_clock_outfreq_detect", reg::sys_clock_outfreq_detect, 0, kreg_val_type_decimal);
  318. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_module", reg::record_sig_gen_module, 0, kreg_val_type_hex);
  319. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_ctrl_control_mode", reg::record_sig_gen_ctrl_control_mode, 0, kreg_val_type_decimal);
  320. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_timecode_start0", reg::record_sig_gen_timecode_start0, 0, kreg_val_type_decimal);
  321. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_timecode_start1", reg::record_sig_gen_timecode_start1, 0, kreg_val_type_decimal);
  322. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_timecode_stop0", reg::record_sig_gen_timecode_stop0, 0, kreg_val_type_decimal);
  323. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_timecode_stop1", reg::record_sig_gen_timecode_stop1, 0, kreg_val_type_decimal);
  324. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_timecode_control_flag", reg::record_sig_gen_timecode_control_flag, 0, kreg_val_type_decimal);
  325. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_ttlin_trigger_sig_source", reg::record_sig_gen_ttlin_trigger_sig_source, 0, kreg_val_type_decimal);
  326. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_ttlin_trigger_level", reg::record_sig_gen_ttlin_trigger_level, 0, kreg_val_type_decimal);
  328. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_exposure_time", reg::record_sig_gen_exposure_time, 0, kreg_val_type_decimal);
  329. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_exposure_offset_time", reg::record_sig_gen_exposure_offset_time, 0, kreg_val_type_decimal);
  330. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_manual_ctrl", reg::record_sig_gen_manual_ctrl, 0, kreg_val_type_decimal);
  331. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_timecode_snapshot0", reg::record_sig_gen_timecode_snapshot0, 0, kreg_val_type_decimal);
  332. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_timecode_snapshot1", reg::record_sig_gen_timecode_snapshot1, 0, kreg_val_type_decimal);
  333. push_reg(ui->gridLayoutWidget, regoff++, "record_sig_gen_record_state", reg::record_sig_gen_record_state, 0, kreg_val_type_decimal);
  335. push_reg(ui->gridLayoutWidget, regoff++, "camera_sync_module", reg::camera_sync_module, 0, kreg_val_type_hex);
  336. push_reg(ui->gridLayoutWidget, regoff++, "camera_sync_pulse_mode_valid_len", reg::camera_sync_pulse_mode_valid_len, 0, kreg_val_type_decimal);
  338. auto qrect = ui->gridLayoutWidget->geometry();
  339. qrect.setHeight(31 * regoff - 1);
  340. ui->scrollAreaWidgetContents->setMinimumHeight(31 * (regoff + 10) - 1);
  341. ui->gridLayoutWidget->setGeometry(qrect);
  342. }
  343. //
  345. void MainWindow::UI_TimecodePageConstruct() {
  346. ui->InternalTimecode_Format->clear();
  347. for (auto &str : TimecodeFormatStrSet()) {
  348. ui->InternalTimecode_Format->addItem(QString::fromStdString(str));
  349. }
  351. ui->ExternalTimecode_Format->clear();
  352. for (auto &str : TimecodeFormatStrSet()) {
  353. ui->ExternalTimecode_Format->addItem(QString::fromStdString(str));
  354. }
  356. ui->ExternalTimecode_Source->clear();
  357. ui->ExternalTimecode_Source->addItem(QString::fromStdString(InputInterface2Str(INPUT_IF_TIMECODE_BNC)));
  358. ui->ExternalTimecode_Source->addItem(QString::fromStdString(InputInterface2Str(INPUT_IF_TIMECODE_HEADPHONE)));
  360. ui->SysTimecode_Source->clear();
  361. ui->SysTimecode_Source->addItem(QString::fromStdString("0"));
  362. ui->SysTimecode_Source->addItem(QString::fromStdString("1"));
  363. }
  365. // void MainWindow::UI_CameraSyncPacketGeneratorModuleConstruct() {
  366. // ui->CameraSyncPacketGeneratorModule_TriggerSig->clear();
  367. // for (auto &str : camera_sync_packet_generator_module::TriggerSigTypeStrSet()) {
  368. // ui->CameraSyncPacketGeneratorModule_TriggerSig->addItem(QString::fromStdString(str));
  369. // }
  370. // }
  372. void MainWindow::UI_TTLPageConstruct() {
  373. QStringList list;
  375. list.push_back(QString::fromStdString(SignalType2Str(SIGNAL_LOGIC0)));
  376. list.push_back(QString::fromStdString(SignalType2Str(SIGNAL_LOGIC1)));
  377. list.push_back(QString::fromStdString(SignalType2Str(SIGNAL_TTLIN1)));
  378. list.push_back(QString::fromStdString(SignalType2Str(SIGNAL_TTLIN2)));
  379. list.push_back(QString::fromStdString(SignalType2Str(SIGNAL_TTLIN3)));
  380. list.push_back(QString::fromStdString(SignalType2Str(SIGNAL_TTLIN4)));
  381. list.push_back(QString::fromStdString(SignalType2Str(SIGNAL_SYS_CLK_OUTPUT)));
  382. list.push_back(QString::fromStdString(SignalType2Str(SIGNAL_SYS_GENLOCK_OUTPUT)));
  383. list.push_back(QString::fromStdString(SignalType2Str(SIGNAL_SYS_TIMECODE_FREQ_OUTPUT)));
  384. list.push_back(QString::fromStdString(SignalType2Str(SIGNAL_BUSINESS_RECORD_SIG)));
  385. list.push_back(QString::fromStdString(SignalType2Str(SIGNAL_BUSINESS_RECORD_EXPOSURE_SIG)));
  387. ui->TTLOutputModule_SrcSigType_1->clear();
  388. ui->TTLOutputModule_SrcSigType_1->addItems(list);
  390. ui->TTLOutputModule_SrcSigType_2->clear();
  391. ui->TTLOutputModule_SrcSigType_2->addItems(list);
  393. ui->TTLOutputModule_SrcSigType_3->clear();
  394. ui->TTLOutputModule_SrcSigType_3->addItems(list);
  396. ui->TTLOutputModule_SrcSigType_4->clear();
  397. ui->TTLOutputModule_SrcSigType_4->addItems(list);
  398. }
  399. void MainWindow::UI_GenlockPageConstruct() {
  400. //
  401. // ui->ExternalGenlock_Source->clear();
  403. ui->InternalGenlock_Format->clear();
  404. for (auto &str : GenlockFormatStrSet()) {
  405. ui->InternalGenlock_Format->addItem(QString::fromStdString(str));
  406. }
  408. ui->SysGenlock_Src->clear();
  409. ui->SysGenlock_Src->addItem(QString::fromStdString("0"));
  410. ui->SysGenlock_Src->addItem(QString::fromStdString("1"));
  411. }
  413. void MainWindow::UI_SysClockPageConstruct() {
  414. ui->SysClock_Src->clear();
  416. ui->SysClock_Src->addItem(QString::fromStdString(SignalType2Str(SIGNAL_TTLIN1)));
  417. ui->SysClock_Src->addItem(QString::fromStdString(SignalType2Str(SIGNAL_TTLIN2)));
  418. ui->SysClock_Src->addItem(QString::fromStdString(SignalType2Str(SIGNAL_TTLIN3)));
  419. ui->SysClock_Src->addItem(QString::fromStdString(SignalType2Str(SIGNAL_TTLIN4)));
  420. ui->SysClock_Src->addItem(QString::fromStdString(SignalType2Str(SIGNAL_INTERNAL_CLOCK_SIG)));
  421. ui->SysClock_Src->addItem(QString::fromStdString(SignalType2Str(SIGNAL_SYS_GENLOCK_OUTPUT)));
  422. ui->SysClock_Src->addItem(QString::fromStdString(SignalType2Str(SIGNAL_SYS_TIMECODE_FREQ_OUTPUT)));
  423. }
  424. void MainWindow::UI_RecordSigGenConstruct() {
  425. ui->RecordSigGenerator_ContrlMode->clear();
  426. ui->RecordSigGenerator_ContrlMode->addItem(QString::fromStdString(ControlMode2Str(CONTROLMODE_MANUAL_TRIGGER)));
  427. ui->RecordSigGenerator_ContrlMode->addItem(QString::fromStdString(ControlMode2Str(CONTROLMODE_TIMECODE_TRIGGER)));
  428. ui->RecordSigGenerator_ContrlMode->addItem(QString::fromStdString(ControlMode2Str(CONTROLMODE_EXTERNALTTL_TRIGGER)));
  430. ui->RecordSigGenerator_ExternalTTLTriggerSrc->clear();
  431. ui->RecordSigGenerator_ExternalTTLTriggerSrc->addItem(QString::fromStdString(InputInterface2Str(INPUT_IF_TTL1)));
  432. ui->RecordSigGenerator_ExternalTTLTriggerSrc->addItem(QString::fromStdString(InputInterface2Str(INPUT_IF_TTL2)));
  433. ui->RecordSigGenerator_ExternalTTLTriggerSrc->addItem(QString::fromStdString(InputInterface2Str(INPUT_IF_TTL3)));
  434. ui->RecordSigGenerator_ExternalTTLTriggerSrc->addItem(QString::fromStdString(InputInterface2Str(INPUT_IF_TTL4)));
  435. }
  437. MainWindow::MainWindow(QWidget *parent) : QMainWindow(parent), ui(new Ui::MainWindow) {
  438. ui->setupUi(this);
  439. m_mainWindow = this;
  441. /**
  442. * @brief UI
  443. */
  444. construct_reg_table();
  445. qInstallMessageHandler(log_output);
  446. UI_TimecodePageConstruct();
  447. // UI_CameraSyncPacketGeneratorModuleConstruct();
  448. UI_TTLPageConstruct();
  449. UI_GenlockPageConstruct();
  450. UI_SysClockPageConstruct();
  451. UI_RecordSigGenConstruct();
  453. /*******************************************************************************
  454. * *
  455. *******************************************************************************/
  457. qRegisterMetaType<int32_t>("int32_t");
  458. qRegisterMetaType<uint32_t>("uint32_t");
  459. qRegisterMetaType<function<void()>>("function<void()>");
  460. qRegisterMetaType<QFunction>("QFunction");
  462. XSyncUdpFactoryImpl::Ins()->initialize();
  463. connect(this, SIGNAL(append_log_signal(QString)), this, SLOT(append_log_slot(QString)));
  464. connect(this, SIGNAL(updateUI_timeCodeInfo_signal(QString)), this, SLOT(updateUI_timeCodeInfo_slot(QString)));
  465. connect(this, SIGNAL(updateUI_cameraSyncInfo_signal(QString)), this, SLOT(updateUI_cameraSyncInfo_slot(QString)));
  466. connect(this, SIGNAL(updateUI_reg_signal(int32_t, uint32_t)), this, SLOT(updateUI_reg_slot(int32_t, uint32_t)));
  467. connect(this, SIGNAL(doinui_signal(QFunction)), this, SLOT(doinui_slot(QFunction)));
  468. m_thread.reset(new ZQThread("test", [this]() { mainWindowsRun(); }));
  469. m_thread->start();
  471. // m_xsync.reset(new Xsync());
  473. Xsync::Ins().initialize(XSyncUdpFactoryImpl::Ins());
  474. Xsync::Ins().registerOnTimecodeMsgCallback([this](XsyncTimecode_t *timecode_msg) { //
  475. XsyncTimecode_t timecode = *timecode_msg;
  476. QString text = QString(fmt("%02d:%02d:%02d:%02d", timecode.hour, timecode.minute, timecode.second, timecode.frame));
  477. updateUI_timeCodeInfo_signal(text);
  478. });
  480. Xsync::Ins().registerOnCameraSyncMsgCallback([this](xysnc_camera_sync_data_t *camera_sync_msg) { //
  481. xysnc_camera_sync_data_t camera_sync_data = *camera_sync_msg;
  482. updateUI_cameraSyncInfo_signal(QString(fmt("%d", camera_sync_data.frameIndex)));
  483. });
  485. Xsync::Ins().registerOnWorkstateChangeMsgCallback([this](uint32_t workstate) { emit doinui_signal(QFunction([this, workstate]() { ui->WorkState->setText(QString::number(workstate)); })); });
  486. }
  488. MainWindow::~MainWindow() { delete ui; }
  490. #define XS_ASSERT(exptr) \
  491. { \
  492. auto ecode = exptr; \
  493. while (!(ecode == kxs_ec_success)) { \
  494. ZLOGE(TAG, "do: %s fail,ecode:%d", #exptr, ecode); \
  495. ZQThread::sleep(1); \
  496. } \
  497. }
  499. void MainWindow::on_RefreshRegsButton_clicked() { //
  500. ZLOGI(TAG, "on_refreshRegsButton_clicked");
  501. // int32_t _t1, uint32_t _t2
  503. QtConcurrent::run([this]() {
  504. bool suc = true;
  505. for (auto &reg : m_regdisplayer) {
  506. uint32_t regValue = 0;
  507. auto ecode = Xsync::Ins().reg_read(reg.first, regValue);
  508. int regoff = reg.first;
  510. if (ecode == kxs_ec_success) {
  511. ZLOGI(TAG, "reg_read %x success", reg.first);
  512. m_regdisplayer[regoff]->regvalcache = regValue;
  513. emit doinui_signal(QFunction([this, regoff, regValue]() { updateUI_reg(regoff); }));
  514. } else {
  515. emit doinui_signal(QFunction([this, regoff, regValue]() {
  516. m_regdisplayer[regoff]->regvalcache = 0;
  517. m_regdisplayer[regoff]->regBrowser->setText("error");
  518. }));
  519. }
  520. }
  521. });
  522. }
  523. void MainWindow::on_ClearLogButton_clicked() { //
  524. ui->logbrowser->clear();
  525. }
  526. void MainWindow::on_Connect2XsyncButton_clicked() { //
  527. ZLOGI(TAG, "connect %s", ui->IpInput->text().toStdString().c_str());
  528. xs_error_code_t ecode = Xsync::Ins().connect(ui->IpInput->text().toStdString());
  529. ZLOGI(TAG, "connect %s ecode:%s", ui->IpInput->text().toStdString().c_str(), xs_error_code_2_str(ecode));
  530. }
  531. void MainWindow::mainWindowsRun() { //
  532. }
  534. #define DO_XSYNC_FUNC(exptr) \
  535. { \
  536. auto ecode = exptr; \
  537. if (!(ecode == kxs_ec_success)) { \
  538. ZLOGE(TAG, "do: %s fail,ecode:[%d](%s)", #exptr, ecode, xs_error_code_2_str(ecode)); \
  539. return; \
  540. } else { \
  541. ZLOGI(TAG, "do: %s success", #exptr); \
  542. } \
  543. }
  545. void MainWindow::on_GenNewMac_clicked() { DO_XSYNC_FUNC(Xsync::Ins().generatorNewMac()); }
  546. void MainWindow::on_FactoryReset_clicked() { DO_XSYNC_FUNC(Xsync::Ins().factoryReset()); }
  547. void MainWindow::on_Reboot_clicked() { DO_XSYNC_FUNC(Xsync::Ins().reboot()); }
  548. void MainWindow::on_ChangeNetCfg_clicked() { //
  549. DO_XSYNC_FUNC(Xsync::Ins().changeNetworkConfig(ui->ChangeNetCfg_ip->text().toStdString(), ui->ChangeNetCfg_mask->text().toStdString(), ui->ChangeNetCfg_gateway->text().toStdString()));
  550. }
  552. void MainWindow::on_TimecodePage_Read_clicked() {
  553. TimecodeFormat_t InternalTimecode_Format;
  554. XsyncTimecode_t InternalTimecode_Code;
  555. TimecodeFormat_t ExternalTimecode_Format;
  556. InputInterface_t ExternalTimecode_Source;
  557. XsyncTimecode_t ExternalTimecode_Code;
  558. uint32_t SysTimecode_Source;
  559. TimecodeFormat_t SysTimecode_Format;
  560. XsyncTimecode_t SysTimecode_Code;
  562. DO_XSYNC_FUNC(Xsync::Ins().InternalTimecode_getFormat(InternalTimecode_Format));
  563. DO_XSYNC_FUNC(Xsync::Ins().InternalTimecode_getCode(InternalTimecode_Code));
  564. DO_XSYNC_FUNC(Xsync::Ins().ExternalTimecode_getFormat(ExternalTimecode_Format));
  565. DO_XSYNC_FUNC(Xsync::Ins().ExternalTimecode_getSource(ExternalTimecode_Source));
  566. DO_XSYNC_FUNC(Xsync::Ins().ExternalTimecode_readCode(ExternalTimecode_Code));
  567. DO_XSYNC_FUNC(Xsync::Ins().SysTimecode_getSource(SysTimecode_Source));
  568. DO_XSYNC_FUNC(Xsync::Ins().SysTimecode_readFormat(SysTimecode_Format));
  569. DO_XSYNC_FUNC(Xsync::Ins().SysTimecode_readCode(SysTimecode_Code));
  571. ui->InternalTimecode_Format->setCurrentText(QString::fromStdString(TimecodeFormatToStr(InternalTimecode_Format)));
  572. ui->InternalTimecode_Code->setText(QString(XsyncTimecodeToStr(InternalTimecode_Code).c_str()));
  573. ui->ExternalTimecode_Format->setCurrentText(QString::fromStdString(TimecodeFormatToStr(ExternalTimecode_Format)));
  574. ui->ExternalTimecode_Source->setCurrentText(QString::fromStdString(InputInterface2Str(ExternalTimecode_Source)));
  575. ui->ExternalTimecode_Code->setText(QString(XsyncTimecodeToStr(ExternalTimecode_Code).c_str()));
  576. ui->SysTimecode_Source->setCurrentText(QString::number(SysTimecode_Source));
  577. ui->SysTimecode_Format->setText(QString::fromStdString(TimecodeFormatToStr(SysTimecode_Format)));
  578. ui->SysTimecode_Code->setText(QString(XsyncTimecodeToStr(SysTimecode_Code).c_str()));
  579. }
  580. void MainWindow::on_TimecodePage_Update_clicked() {
  581. TimecodeFormat_t InternalTimecode_Format = Str2TimecodeFormat(ui->InternalTimecode_Format->currentText().toStdString());
  582. XsyncTimecode_t InternalTimecode_Code = Str2XsyncTimecode(ui->InternalTimecode_Code->text().toStdString());
  583. TimecodeFormat_t ExternalTimecode_Format = Str2TimecodeFormat(ui->ExternalTimecode_Format->currentText().toStdString());
  584. InputInterface_t ExternalTimecode_Source = Str2InputInterface(ui->ExternalTimecode_Source->currentText().toStdString());
  585. uint32_t SysTimecode_Source = ui->SysTimecode_Source->currentText().toInt();
  587. DO_XSYNC_FUNC(Xsync::Ins().InternalTimecode_setFormat(InternalTimecode_Format));
  588. DO_XSYNC_FUNC(Xsync::Ins().InternalTimecode_setCode(InternalTimecode_Code));
  589. DO_XSYNC_FUNC(Xsync::Ins().ExternalTimecode_setFormat(ExternalTimecode_Format));
  590. DO_XSYNC_FUNC(Xsync::Ins().ExternalTimecode_setSource(ExternalTimecode_Source));
  591. DO_XSYNC_FUNC(Xsync::Ins().SysTimecode_setSource(SysTimecode_Source));
  592. }
  594. // void MainWindow::on_CameraSyncPacketGeneratorModule_ClearPacketIndex_clicked() {
  595. // DO_XSYNC_FUNC(Xsync::Ins().CameraSyncPacketGeneratorModule_clearPacketIndex());
  596. // on_CameraSyncPacketGeneratorModule_Read_clicked();
  597. // }
  599. void MainWindow::on_tabWidget_currentChanged(int index) {
  600. on_RefreshRegsButton_clicked();
  601. // on_CameraSyncPacketGeneratorModule_Read_clicked();
  602. on_TimecodePage_Read_clicked();
  603. on_TTLPage_Read_clicked();
  604. }
  606. void MainWindow::on_TTLInputModule_Index_currentIndexChanged(int index) {}
  607. void MainWindow::on_TTLOutputMoudle_ID_currentIndexChanged(int index) {}
  609. void MainWindow::on_TTLPage_Read_clicked() {
  610. {
  611. uint32_t freq1 = 0;
  612. uint32_t freq2 = 0;
  613. uint32_t freq3 = 0;
  614. uint32_t freq4 = 0;
  615. bool En;
  617. DO_XSYNC_FUNC(Xsync::Ins().TTLInputModule1_detectFreq(freq1));
  618. DO_XSYNC_FUNC(Xsync::Ins().TTLInputModule2_detectFreq(freq2));
  619. DO_XSYNC_FUNC(Xsync::Ins().TTLInputModule3_detectFreq(freq3));
  620. DO_XSYNC_FUNC(Xsync::Ins().TTLInputModule4_detectFreq(freq4));
  622. ZLOGI(TAG, "freq1:%d freq2:%d freq3:%d freq4:%d", freq1, freq2, freq3, freq4);
  624. ui->TTLinModule_ttl_freq_1->setText(QString::number(freq1));
  625. ui->TTLinModule_ttl_freq_2->setText(QString::number(freq2));
  626. ui->TTLinModule_ttl_freq_3->setText(QString::number(freq3));
  627. ui->TTLinModule_ttl_freq_4->setText(QString::number(freq4));
  628. }
  630. SignalType_t source;
  631. uint32_t div;
  632. uint32_t multi;
  633. float infreq;
  634. float outfreq;
  636. {
  637. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule1_getSrcSigType(source));
  638. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule1_getFreqDivision(div));
  639. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule1_getFreqMultiplication(multi));
  640. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule1_readInFreq(infreq));
  641. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule1_readOutFreq(outfreq));
  643. ui->TTLOutputModule_SrcSigType_1->setCurrentText(QString::fromStdString(SignalType2Str(source)));
  644. ui->TTLOutputModule_FreqDivision_1->setText(QString::number(div));
  645. ui->TTLOutputModule_FreqMultiplication_1->setText(QString::number(multi));
  646. ui->TTLOutputModule_InFreq_1->setText(QString::number(infreq, 'f', 2));
  647. ui->TTLOutputModule_OutFreq_1->setText(QString::number(outfreq, 'f', 2));
  648. }
  650. {
  651. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule2_getSrcSigType(source));
  652. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule2_getFreqDivision(div));
  653. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule2_getFreqMultiplication(multi));
  654. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule2_readInFreq(infreq));
  655. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule2_readOutFreq(outfreq));
  657. ui->TTLOutputModule_SrcSigType_2->setCurrentText(QString::fromStdString(SignalType2Str(source)));
  658. ui->TTLOutputModule_FreqDivision_2->setText(QString::number(div));
  659. ui->TTLOutputModule_FreqMultiplication_2->setText(QString::number(multi));
  660. ui->TTLOutputModule_InFreq_2->setText(QString::number(infreq, 'f', 2));
  661. ui->TTLOutputModule_OutFreq_2->setText(QString::number(outfreq, 'f', 2));
  662. }
  664. {
  665. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule3_getSrcSigType(source));
  666. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule3_getFreqDivision(div));
  667. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule3_getFreqMultiplication(multi));
  668. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule3_readInFreq(infreq));
  669. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule3_readOutFreq(outfreq));
  671. ui->TTLOutputModule_SrcSigType_3->setCurrentText(QString::fromStdString(SignalType2Str(source)));
  672. ui->TTLOutputModule_FreqDivision_3->setText(QString::number(div));
  673. ui->TTLOutputModule_FreqMultiplication_3->setText(QString::number(multi));
  674. ui->TTLOutputModule_InFreq_3->setText(QString::number(infreq, 'f', 2));
  675. ui->TTLOutputModule_OutFreq_3->setText(QString::number(outfreq, 'f', 2));
  676. }
  678. {
  679. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule4_getSrcSigType(source));
  680. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule4_getFreqDivision(div));
  681. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule4_getFreqMultiplication(multi));
  682. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule4_readInFreq(infreq));
  683. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule4_readOutFreq(outfreq));
  685. ui->TTLOutputModule_SrcSigType_4->setCurrentText(QString::fromStdString(SignalType2Str(source)));
  686. ui->TTLOutputModule_FreqDivision_4->setText(QString::number(div));
  687. ui->TTLOutputModule_FreqMultiplication_4->setText(QString::number(multi));
  688. ui->TTLOutputModule_InFreq_4->setText(QString::number(infreq, 'f', 2));
  689. ui->TTLOutputModule_OutFreq_4->setText(QString::number(outfreq, 'f', 2));
  690. }
  691. }
  692. void MainWindow::on_TTLPage_Write_clicked() {
  693. {
  694. auto source = Str2SignalType(ui->TTLOutputModule_SrcSigType_1->currentText().toStdString());
  695. auto div = ui->TTLOutputModule_FreqDivision_1->text().toUInt();
  696. auto multi = ui->TTLOutputModule_FreqMultiplication_1->text().toUInt();
  698. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule1_setSrcSigType(source));
  699. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule1_setFreqDivision(div));
  700. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule1_setFreqMultiplication(multi));
  701. }
  703. {
  704. auto source = Str2SignalType(ui->TTLOutputModule_SrcSigType_2->currentText().toStdString());
  705. auto div = ui->TTLOutputModule_FreqDivision_2->text().toUInt();
  706. auto multi = ui->TTLOutputModule_FreqMultiplication_2->text().toUInt();
  708. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule2_setSrcSigType(source));
  709. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule2_setFreqDivision(div));
  710. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule2_setFreqMultiplication(multi));
  711. }
  713. {
  714. auto source = Str2SignalType(ui->TTLOutputModule_SrcSigType_3->currentText().toStdString());
  715. auto div = ui->TTLOutputModule_FreqDivision_3->text().toUInt();
  716. auto multi = ui->TTLOutputModule_FreqMultiplication_3->text().toUInt();
  718. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule3_setSrcSigType(source));
  719. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule3_setFreqDivision(div));
  720. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule3_setFreqMultiplication(multi));
  721. }
  723. {
  724. auto source = Str2SignalType(ui->TTLOutputModule_SrcSigType_4->currentText().toStdString());
  725. auto div = ui->TTLOutputModule_FreqDivision_4->text().toUInt();
  726. auto multi = ui->TTLOutputModule_FreqMultiplication_4->text().toUInt();
  728. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule4_setSrcSigType(source));
  729. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule4_setFreqDivision(div));
  730. DO_XSYNC_FUNC(Xsync::Ins().TTLOutputModule4_setFreqMultiplication(multi));
  731. }
  732. }
  734. void MainWindow::on_GenlockPage_Read_clicked() {
  735. {
  736. GenlockFormat_t format;
  737. DO_XSYNC_FUNC(Xsync::Ins().InternalGenlock_getFormat(format));
  738. ui->InternalGenlock_Format->setCurrentText(QString::fromStdString(GenlockFormatToStr(format)));
  739. }
  741. {
  742. float freq;
  743. DO_XSYNC_FUNC(Xsync::Ins().ExternalGenlock_detectFreq(freq));
  744. ui->ExternalGenlock_Freq->setText(QString::number(freq, 'f', 2));
  745. }
  747. {
  748. uint32_t src;
  749. DO_XSYNC_FUNC(Xsync::Ins().SysGenlock_getSrc(src));
  750. ui->SysGenlock_Src->setCurrentText(QString::number(src));
  751. }
  753. {
  754. float freq;
  755. DO_XSYNC_FUNC(Xsync::Ins().SysGenlock_readFreq(freq));
  756. ui->SysGenlock_Freq->setText(QString::number(freq, 'f', 2));
  757. }
  758. }
  759. void MainWindow::on_GenlockPage_Write_clicked() {
  760. {
  761. auto format = Str2GenlockFormat(ui->InternalGenlock_Format->currentText().toStdString());
  762. DO_XSYNC_FUNC(Xsync::Ins().InternalGenlock_setFormat(format));
  763. }
  765. {
  766. auto src = ui->SysGenlock_Src->currentText().toUInt();
  767. DO_XSYNC_FUNC(Xsync::Ins().SysGenlock_setSrc(src));
  768. }
  769. }
  771. void MainWindow::on_SysClockPage_Read_clicked() {
  772. {
  773. float freq;
  774. DO_XSYNC_FUNC(Xsync::Ins().InternalClock_getFreq(freq));
  775. ui->InternalClock_Freq->setText(QString::number(freq, 'f', 2));
  776. }
  778. {
  779. SignalType_t src;
  780. DO_XSYNC_FUNC(Xsync::Ins().SysClock_getSrc(src));
  781. ui->SysClock_Src->setCurrentText(QString::fromStdString(SignalType2Str(src)));
  782. }
  784. {
  785. uint32_t div;
  786. DO_XSYNC_FUNC(Xsync::Ins().SysClock_geFreqtDivision(div));
  787. ui->SysClock_FreqtDivision->setText(QString::number(div));
  788. }
  790. {
  791. uint32_t multi;
  792. DO_XSYNC_FUNC(Xsync::Ins().SysClock_getFreqMultiplication(multi));
  793. ui->SysClock_FreqMultiplication->setText(QString::number(multi));
  794. }
  796. {
  797. float freq;
  798. DO_XSYNC_FUNC(Xsync::Ins().SysClock_readInSigFreq(freq));
  799. ui->SysClock_InSigFreq->setText(QString::number(freq, 'f', 2));
  800. }
  802. {
  803. float freq;
  804. DO_XSYNC_FUNC(Xsync::Ins().SysClock_readOutSigFreq(freq));
  805. ui->SysClock_OutSigFreq->setText(QString::number(freq, 'f', 2));
  806. }
  807. }
  808. void MainWindow::on_SysClockPage_Wirte_clicked() {
  809. {
  810. auto freq = ui->InternalClock_Freq->text().toFloat();
  811. DO_XSYNC_FUNC(Xsync::Ins().InternalClock_setFreq(freq));
  812. }
  814. {
  815. auto src = Str2SignalType(ui->SysClock_Src->currentText().toStdString());
  816. DO_XSYNC_FUNC(Xsync::Ins().SysClock_setSrc(src));
  817. }
  819. {
  820. auto div = ui->SysClock_FreqtDivision->text().toUInt();
  821. DO_XSYNC_FUNC(Xsync::Ins().SysClock_setFreqDivision(div));
  822. }
  824. {
  825. auto multi = ui->SysClock_FreqMultiplication->text().toUInt();
  826. DO_XSYNC_FUNC(Xsync::Ins().SysClock_setFreqMultiplication(multi));
  827. }
  828. }
  830. void MainWindow::on_RecordSigGen_Read_clicked() {
  831. ControlMode_t mode;
  832. XsyncTimecode_t autoStartTimecode;
  833. XsyncTimecode_t autoStopTimecode;
  834. uint32_t autoStart;
  835. uint32_t autoStop;
  836. InputInterface_t ttlPortNum;
  837. uint32_t polarity;
  838. uint32_t exposureTime;
  839. uint32_t exposureOffsetTime;
  840. uint32_t state;
  841. XsyncTimecode_t timecode_snapshot;
  843. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_getContrlMode(mode));
  844. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_getAutoStartTimecode(autoStartTimecode));
  845. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_getAutoStopTimecode(autoStopTimecode));
  846. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_getTimecodeCtrlFlag(autoStart, autoStop));
  847. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_getExternalTTLTriggerSrc(ttlPortNum));
  848. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_getExternalTTLTriggerPolarity(polarity));
  849. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_getRecordExposureTime(exposureTime));
  850. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_getRecordExposureOffsetTime(exposureOffsetTime));
  851. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_getRecordState(state));
  852. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_readTimecodeSnapshot(timecode_snapshot));
  854. ui->RecordSigGenerator_ContrlMode->setCurrentText(QString::fromStdString(ControlMode2Str(mode)));
  855. ui->RecordSigGenerator_AutoStartTimecode->setText(QString(XsyncTimecodeToStr(autoStartTimecode).c_str()));
  856. ui->RecordSigGenerator_AutoStopTimecode->setText(QString(XsyncTimecodeToStr(autoStopTimecode).c_str()));
  857. ui->RecordSigGenerator_TimecodeCtrlFlag0->setChecked(autoStart);
  858. ui->RecordSigGenerator_TimecodeCtrlFlag1->setChecked(autoStop);
  859. ui->RecordSigGenerator_ExternalTTLTriggerSrc->setCurrentText(QString::fromStdString(InputInterface2Str(ttlPortNum)));
  860. ui->RecordSigGenerator_ExternalTTLTriggerPolarity->setText(QString::number(polarity));
  861. ui->RecordSigGenerator_RecordExposureTime->setText(QString::number(exposureTime));
  862. ui->RecordSigGenerator_RecordExposureOffsetTime->setText(QString::number(exposureOffsetTime));
  863. ui->RecordSigGenerator_RecordState->setText(QString::number(state));
  864. ui->RecordSigGenerator_TimecodeSnapshot->setText(QString(XsyncTimecodeToStr(timecode_snapshot).c_str()));
  865. }
  866. void MainWindow::on_RecordSigGen_Write_clicked() {
  867. ControlMode_t mode = Str2ControlMode(ui->RecordSigGenerator_ContrlMode->currentText().toStdString());
  868. XsyncTimecode_t autoStartTimecode = Str2XsyncTimecode(ui->RecordSigGenerator_AutoStartTimecode->text().toStdString());
  869. XsyncTimecode_t autoStopTimecode = Str2XsyncTimecode(ui->RecordSigGenerator_AutoStopTimecode->text().toStdString());
  870. uint32_t autoStart = ui->RecordSigGenerator_TimecodeCtrlFlag0->isChecked();
  871. uint32_t autoStop = ui->RecordSigGenerator_TimecodeCtrlFlag1->isChecked();
  872. InputInterface_t ttlPortNum = Str2InputInterface(ui->RecordSigGenerator_ExternalTTLTriggerSrc->currentText().toStdString());
  873. uint32_t polarity = ui->RecordSigGenerator_ExternalTTLTriggerPolarity->text().toUInt();
  874. uint32_t exposureTime = ui->RecordSigGenerator_RecordExposureTime->text().toUInt();
  875. uint32_t exposureOffsetTime = ui->RecordSigGenerator_RecordExposureOffsetTime->text().toUInt();
  877. // RecordSigGenerator_readTimecodeSnapshot
  879. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_setContrlMode(mode));
  880. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_setAutoStartTimecode(autoStartTimecode));
  881. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_setAutoStopTimecode(autoStopTimecode));
  882. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_setTimecodeCtrlFlag(autoStart, autoStop));
  883. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_setExternalTTLTriggerSrc(ttlPortNum));
  884. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_setExternalTTLTriggerPolarity(polarity));
  885. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_setRecordExposureTime(exposureTime));
  886. DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_setRecordExposureOffsetTime(exposureOffsetTime));
  887. }
  888. void MainWindow::on_RecordSigGenerator_manualStart_clicked() { DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_manualStart()); }
  889. void MainWindow::on_RecordSigGenerator_manualStop_clicked() { DO_XSYNC_FUNC(Xsync::Ins().RecordSigGenerator_manualStop()); }