// // On Ajax XHTML request Event // virtual void onRequest(const int index, CString &result) { CTime tm; switch(index) { case CGI_INDEX_TEMP: result.printf("%0.2f, %0.2f, %d, %d, %d", sht1x.temp, sht1x.humi, (MAX_USER_POOL-heapAvailableSize())*100/MAX_USER_POOL, // MAX user's memory=35KB sys.m_cpu, sys.m_net); break; case SSI_INDEX_DATE: tm = CTime::now(); result.printf("%04d/%02d/%02d", tm.getYear(), tm.getMonth(), tm.getDay() ); break; case SSI_INDEX_TIME: tm = CTime::now(); result.printf("%02d:%02d:%02d", tm.getHour(), tm.getMinute(), tm.getSecond() ); break; } }
// Write instance of the CTime class into the given writer. static void show(IWriter& writer, const CTime& a_crTime) { CALL writer << fill_0 << width(2) << a_crTime.getHour() << STR(':'); writer << fill_0 << width(2) << a_crTime.getMinute() << STR(':'); writer << fill_0 << width(2) << a_crTime.getSecond() << STR('-'); writer << fill_0 << width(4) << a_crTime.getMillisecond() << ln; }
/* ============================================== main task routine ============================================== */ int main(void) { pool_memadd((uint32_t) pool, sizeof(pool)); #ifdef DEBUG dbg.start(); #endif // Simple demo Code (removable) CPin led(LED1); CTxtLcd lcd(UNO_8, UNO_9, UNO_10, UNO_0, UNO_1, UNO_2, UNO_3, UNO_4, UNO_5, UNO_6, UNO_7); lcd.begin(); // lcd.cursor(); // lcd.blink(); Console con(lcd); con << "Hello World" << endl; CTick to; CTime tm; // Enter an endless loop while (1) { // Simple demo Code (removable) led = !led; sleep(200); if ( to.isExpired(1000) ) { to.reset(); tm = CTime::now(); lcd.setCursor(0,1); con.printf("%02d/%02d %02d:%02d:%02d", tm.getMonth(), tm.getDay(), tm.getHour(), tm.getMinute(), tm.getSecond() ); } } return 0; }
/* ============================================== main task routine ============================================== */ int main(void) { pool_memadd((uint32_t) pool, sizeof(pool)); #ifdef DEBUG dbg.start(); #endif // Simple demo Code (removable) CPin led(LED1); // // Add WebSocket Server with service 'sslm-k-056b' // MyWebSocketServer server; server.add("/sslm-k-056b", WSS_INDEX_SSLM); // // set reversion LED module index // sslm.setting(2, sslmREVERSE); sslm.setting(4, sslmREVERSE); sslm.start(); // // set default LED brightness // sslm.brightness(0.5); // brightness=50% // LED Test for (int v=0; v<16; v++) { for (int i=0; i<6; i++) { sslm.write(i, v); sslm.dot(i, (v & 0x01)? true: false); } sslm.trigger(); sleep(500); } sslm.clear(); CTime tm; int v0, v1, v2; gnShowType = SHOW_FOR_TIME; gnHourType = SHOW_HOUR_24; // set dots : for time display sslm.dot(1, true); sslm.dot(2, true); sslm.dot(3, true); sslm.dot(4, true); // Enter an endless loop while (1) { // Simple demo Code (removable) led = !led; sleep(500); // update time tm = CTime::now(); // get system date/time if ( gnShowType==SHOW_FOR_TIME ) { // blink decimal point for Time Format if ( led ) { sslm.dot(1, true); sslm.dot(2, true); sslm.dot(3, true); sslm.dot(4, true); } else { sslm.dot(1, false); sslm.dot(2, false); sslm.dot(3, false); sslm.dot(4, false); } v0 = tm.getHour(); if ( gnHourType==SHOW_HOUR_12 ) { if ( v0>12 ) v0 -=12; } v1 = tm.getMinute(); v2 = tm.getSecond(); } else { // // Show Date Info // v0 = tm.getYear() % 100; v1 = tm.getMonth(); v2 = tm.getDay(); } // update sslm sslm.write(5, v2 % 10); sslm.write(4, v2 / 10); sslm.write(3, v1 % 10); sslm.write(2, v1 / 10); sslm.write(1, v0 % 10); sslm.write(0, v0 / 10); sslm.trigger(); } return 0; }