void ShowParams(LIVECONFIG *config) { uint8_t u; ShowParam(g_commands[3].cmd, config->mccount); ShowParam(g_commands[4].cmd, config->thdiv); ShowParam(g_commands[5].cmd, config->tlimit); UsartSendStr("\r\nSHIFTS:\r\n", 1); ShowParam(g_shifts[4].cmd, config->sumshift); for(u = 0; u < sizeof(g_shiftDisps) / sizeof(g_shiftDisps[0]); ++u) { ShowParam( g_shifts[u].cmd, config->shifts[g_shiftDisps[u]] ); } UsartSendStr("\r\n", 1); #if defined(USE_LEDBAR) UsartSendStr("\r\nLeds\r\n", 1); { uint8_t idx; uint8_t line; for(line = 0; line < 2; ++line) { for(idx = 0; idx < 8; ++idx) { UsartSendStr(" 0x", 1); UsartPrintByte(g_config.ledbarvalues[line][idx], 2, 1); } UsartSendStr("\r\n", 1); } } #endif }
//================================================================================== void write_hour(void) { if(PKDU.Min>58) { PKDU.Min=0; if(PKDU.Hour>9999) PKDU.Hour=0; else ++PKDU.Hour; EEPROM_save_hour(PKDU.Hour); } if(PKDU.SchowPar==6) { if(!((PKDU.StatusKN>>8)&1)&& ((PKDU.StatusKN>>2)&1)&& ((PKDU.StatusKN>>3)&1)) { PKDU.Hour=0; EEPROM_save_hour(0); ShowParam(); } while(!((PKDU.StatusKN>>8)&1)&& ((PKDU.StatusKN>>2)&1)&& ((PKDU.StatusKN>>3)&1)) { IWDG_ReloadCounter(); } } }
bool MuvisFeat::MuvisAFexHandler::BindParam() { AFexParam *p = new AFexParam(); if (!(fex_bind)(p)) return false; fex_param = p; param.clear(); for (unsigned int i=0; i<p->feat_param_no; i++) param.push_back(make_pair(fourcc2string(p->feat_param_fourcc[i]), p->feat_param_default[i])); if (MethodVerbose()) ShowParam(); return true; }
//================================================================================== //================================================================================== //================================================================================== int main() { bool ver = 0; uint8_t cnt_link = 0; PLL_init(); GPIO_init(); TIM1_init(); TIM2_init(); TIM3_init(); UART_init(); WDT_init(); EEPROM_init(); SysTick_Config(SystemCoreClock/800);//~10 ms time.t1=5; time.t2=5; time.t3=5; time.t4=5; delay_ms(100); Segment[0]=0xFF; Segment[1]=0xFF; Segment[2]=0xFF; Segment[3]=0xFF; Segment[4]=0xFF; Segment[5]=0xFF; Segment[6]=0x7F; ALARM_ON; delay_ms(100); ALARM_OFF; delay_ms(1000); // // while(1) { if( TX_st ) { TX_st = 0; if( cnt_link < LINK_COUNT ) { link_PKBA(); ++cnt_link; } else { PKDU.error = true; cnt_link = 0; } } if( RX_ok && !PKDU.error ) { uint8_t cnt_byte = 0, sum = 0; while( cnt_byte < RX_FRAME_SIZE ) { sum += ArrayRX_PKBA[cnt_byte]; ++cnt_byte; } sum += 0xAA; if( !sum ) { StatusPKBA.reg0 = ArrayRX_PKBA[0]; StatusPKBA.reg1 = ArrayRX_PKBA[1]; StatusPKBA.Error = (ArrayRX_PKBA[3]<<8) | ArrayRX_PKBA[2]; StatusPKBA.RabReg0 = ArrayRX_PKBA[4]; StatusPKBA.UGen = (ArrayRX_PKBA[6]<<8) | ArrayRX_PKBA[5]; StatusPKBA.IGen = (ArrayRX_PKBA[8]<<8) | ArrayRX_PKBA[7]; StatusPKBA.DT = ArrayRX_PKBA[9]; StatusPKBA.DM = ArrayRX_PKBA[10]; StatusPKBA.TM = ArrayRX_PKBA[11]; StatusPKBA.NDiz = (ArrayRX_PKBA[13]<<8) | ArrayRX_PKBA[12]; StatusPKBA.TBapEx = ArrayRX_PKBA[14]; StatusPKBA.TBapIn = ArrayRX_PKBA[15]; StatusPKBA.Led1 = ArrayRX_PKBA[16]; StatusPKBA.Led2 = ArrayRX_PKBA[17]; if( !ver ) { ver = true; show_ver(); delay_ms( 1500 ); Segment[ 0 ] = 0; Segment[ 1 ] = 0; Segment[ 2 ] = 0; Segment[ 3 ] = 0; Segment[ 4 ] = 0; } cnt_link=0; } RX_ok=0; } __nop(); Set_Error(); if(!PKDU.error) ShowParam(); if((PKDU.StatusKN>>4)&1) { maska_err = 0; StatusPKBA.Error=0; PKDU.error=false; cnt_link = 0; } if(((PKDU.StatusKN>>5)&1) && ((PKDU.StatusKN>>6)&1)) { Segment[0] = 0xFF; Segment[1] = 0xFF; Segment[2] = 0xFF; Segment[3] = 0xFF; Segment[4] = 0xFF; Segment[5] = 0xFF; Segment[6] = 0x7F; while(((PKDU.StatusKN>>5)&1)&&((PKDU.StatusKN>>6)&1)) IWDG_ReloadCounter(); } ControlZvonok(); write_hour(); IWDG_ReloadCounter(); } }