/** * at the beginning in main.o ? */ void main(void) { u8 i; //used for printf UART3_Init( 115200, UART3_WORDLENGTH_8D, UART3_STOPBITS_1, UART3_PARITY_NO, UART3_MODE_TXRX_ENABLE); //UART3_ClearITPendingBit(UART1_IT_RXNE); _fctcpy('F'); iap_init_global(); iap_init_UART1_lib(); //"AAA"->"descriptor"->"const initialized from area"->".FLASH_CODE image" printf("AAAA\r\n"); while (1){ iap_checking(); } }
/** * @brief Example firmware main entry point. * @par Parameters: * None * @retval * None */ void main(void) { /*High speed internal clock prescaler: 1*/ CLK_HSIPrescalerConfig(CLK_PRESCALER_HSIDIV1); /* Enable general interrupts */ enableInterrupts(); /* Deinitializes the UART1 and UART3 peripheral */ UART1_DeInit(); UART3_DeInit(); /* UART1 and UART3 configuration -------------------------------------------------*/ /* UART1 and UART3 configured as follow: - BaudRate = 9600 baud - Word Length = 8 Bits - One Stop Bit - No parity - Receive and transmit enabled - UART1 Clock disabled */ /* Configure the UART1 */ UART1_Init((u32)9600, UART1_WORDLENGTH_8D, UART1_STOPBITS_1, UART1_PARITY_NO, UART1_SYNCMODE_CLOCK_DISABLE, UART1_MODE_TXRX_ENABLE); /* Configure the UART3 */ UART3_Init((u32)9600, UART3_WORDLENGTH_8D, UART3_STOPBITS_1, UART3_PARITY_NO, UART3_MODE_TXRX_ENABLE); /* Enable UART3 Receive and UART1 Transmit interrupt */ UART3_ITConfig(UART3_IT_RXNE_OR, ENABLE); UART1_ITConfig(UART1_IT_TXE, ENABLE); /* Wait until end of transmission from UART1 to UART3 */ while (GetVar_RxCounter2() < GetVar_NbrOfDataToTransfer1()) { } /* Enable UART1 Receive and UART3 Transmit interrupt */ UART1_ITConfig(UART1_IT_RXNE_OR, ENABLE); UART3_ITConfig(UART3_IT_TXE, ENABLE); /* Wait until end of transmission from UART3 to UART1 */ while (GetVar_RxCounter1() < GetVar_NbrOfDataToTransfer2()) { } /* Check the received data with the send ones */ TransferStatus1 = Buffercmp(TxBuffer2, RxBuffer1, RxBufferSize1); /* TransferStatus1 = PASSED, if the data transmitted from UART3 and received by UART1 are the same */ /* TransferStatus1 = FAILED, if the data transmitted from UART3 and received by UART1 are different */ TransferStatus2 = Buffercmp(TxBuffer1, RxBuffer2, RxBufferSize2); /* TransferStatus2 = PASSED, if the data transmitted from UART1 and received by UART3 are the same */ /* TransferStatus2 = FAILED, if the data transmitted from UART1 and received by UART3 are different */ while (1); }
/** * @brief 调试串口,UART3 * @param None * @retval None */ void DBG_Config() { UART3_DeInit(); UART3_Init((uint32_t)115200, UART3_WORDLENGTH_8D, UART3_STOPBITS_1, UART3_PARITY_NO, UART3_MODE_TX_DISABLE | UART3_MODE_RX_DISABLE); UART3_ITConfig(UART3_IT_TXE, DISABLE); }
/* ** =================================================================== ** Method : PE_low_level_init (component MK60N512LQ100) ** ** Description : ** Initializes beans and provides common register initialization. ** The method is called automatically as a part of the ** application initialization code. ** This method is internal. It is used by Processor Expert only. ** =================================================================== */ void PE_low_level_init(void) { #ifdef PEX_RTOS_INIT PEX_RTOS_INIT(); /* Initialization of the selected RTOS. Macro is defined by the RTOS component. */ #endif /* Initialization of the SIM module */ /* PORTA_PCR4: ISF=0,MUX=7 */ PORTA_PCR4 = (uint32_t)((PORTA_PCR4 & (uint32_t)~(uint32_t)( PORT_PCR_ISF_MASK )) | (uint32_t)( PORT_PCR_MUX(0x07) )); /* SIM_SOPT6: RSTFLTEN=0,RSTFLTSEL=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0 */ SIM_SOPT6 = (SIM_SOPT6_RSTFLTEN(0x00) | SIM_SOPT6_RSTFLTSEL(0x00)); /* Set reset pin filter */ /* Initialization of the FTFL_FlashConfig module */ /* SIM_SCGC7: MPU=1 */ SIM_SCGC7 |= SIM_SCGC7_MPU_MASK; /* Initialization of the MPU module */ /* MPU_CESR: SPERR=0,VLD=0 */ MPU_CESR &= (uint32_t)~(uint32_t)((MPU_CESR_SPERR(0x1F) | MPU_CESR_VLD_MASK)); /* Initialization of the PMC module */ /* PMC_LVDSC1: LVDACK=1,LVDIE=0,LVDRE=1,LVDV=0 */ PMC_LVDSC1 = (uint8_t)((PMC_LVDSC1 & (uint8_t)~(uint8_t)( PMC_LVDSC1_LVDIE_MASK | PMC_LVDSC1_LVDV(0x03) )) | (uint8_t)( PMC_LVDSC1_LVDACK_MASK | PMC_LVDSC1_LVDRE_MASK )); /* PMC_LVDSC2: LVWACK=1,LVWIE=0,LVWV=0 */ PMC_LVDSC2 = (uint8_t)((PMC_LVDSC2 & (uint8_t)~(uint8_t)( PMC_LVDSC2_LVWIE_MASK | PMC_LVDSC2_LVWV(0x03) )) | (uint8_t)( PMC_LVDSC2_LVWACK_MASK )); /* PMC_REGSC: TRAMPO=0,??=0,BGBE=0 */ PMC_REGSC &= (uint8_t)~(uint8_t)( PMC_REGSC_TRAMPO_MASK | PMC_REGSC_BGBE_MASK | 0x02U ); /* MC_PMPROT: ??=0,??=0,AVLP=0,ALLS=0,??=0,AVLLS3=0,AVLLS2=0,AVLLS1=0 */ MC_PMPROT = 0x00U; /* Setup Power mode protection register */ /* Common initialization of the CPU registers */ /* NVICIP20: PRI20=0 */ NVICIP20 = NVIC_IP_PRI20(0x00); /* ### BitIO_LDD "BitIoLdd1" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */ (void)BitIoLdd1_Init(NULL); /* ### Asynchro serial "UART3" init code ... */ UART3_Init(); /* Enable interrupts of the given priority level */ Cpu_SetBASEPRI(0U); }
void System_init() { delay_init(); //延时函数初始化 uart_init(9600); dc_moter_init(); LED_Init(); UART3_Init(115200); NRF24L01_Init(); //初始化NRF24L01 while(NRF24L01_Check()) //检查NRF24L01是否在位. { delay_ms(200); printf("nrf error\n"); } NRF24L01_RX_Mode(); }
void UART_Init(unsigned long baudrate) { /* Deinitializes the UART3 peripheral */ UART3_DeInit(); /* Configure the UART3 */ UART3_Init((uint32_t)baudrate, UART3_WORDLENGTH_8D, UART3_STOPBITS_1, UART3_PARITY_NO, UART3_MODE_TXRX_ENABLE); /* Enable UART3 Receive interrupt */ UART3_ITConfig(UART3_IT_RXNE_OR, ENABLE); /* Enable general interrupts */ enableInterrupts(); }
void Peripherals_Init(void) { #ifdef NVIC_AUTOINIT NVIC_Init(); #endif /* NVIC_AUTOINIT */ #ifdef SIM_AUTOINIT SIM_Init(); #endif /* SIM_AUTOINIT */ #ifdef MCM_AUTOINIT MCM_Init(); #endif /* MCM_AUTOINIT */ #ifdef PMC_AUTOINIT PMC_Init(); #endif /* PMC_AUTOINIT */ #ifdef PORTA_AUTOINIT PORTA_Init(); #endif /* PORTA_AUTOINIT */ #ifdef PORTB_AUTOINIT PORTB_Init(); #endif /* PORTB_AUTOINIT */ #ifdef PORTC_AUTOINIT PORTC_Init(); #endif /* PORTC_AUTOINIT */ #ifdef PORTD_AUTOINIT PORTD_Init(); #endif /* PORTD_AUTOINIT */ #ifdef PORTE_AUTOINIT PORTE_Init(); #endif /* PORTE_AUTOINIT */ #ifdef ADC0_AUTOINIT ADC0_Init(); #endif /* ADC0_AUTOINIT */ #ifdef ADC1_AUTOINIT ADC1_Init(); #endif /* ADC1_AUTOINIT */ #ifdef AIPS0_AUTOINIT AIPS0_Init(); #endif /* AIPS0_AUTOINIT */ #ifdef AIPS1_AUTOINIT AIPS1_Init(); #endif /* AIPS1_AUTOINIT */ #ifdef AXBS_AUTOINIT AXBS_Init(); #endif /* AXBS_AUTOINIT */ #ifdef CAN0_AUTOINIT CAN0_Init(); #endif /* CAN0_AUTOINIT */ #ifdef CMP0_AUTOINIT CMP0_Init(); #endif /* CMP0_AUTOINIT */ #ifdef CMP1_AUTOINIT CMP1_Init(); #endif /* CMP1_AUTOINIT */ #ifdef CMP2_AUTOINIT CMP2_Init(); #endif /* CMP2_AUTOINIT */ #ifdef CMT_AUTOINIT CMT_Init(); #endif /* CMT_AUTOINIT */ #ifdef CRC_AUTOINIT CRC_Init(); #endif /* CRC_AUTOINIT */ #ifdef DAC0_AUTOINIT DAC0_Init(); #endif /* DAC0_AUTOINIT */ #ifdef DMAMUX_AUTOINIT DMAMUX_Init(); #endif /* DMAMUX_AUTOINIT */ #ifdef DMA_AUTOINIT DMA_Init(); #endif /* DMA_AUTOINIT */ #ifdef ENET_AUTOINIT ENET_Init(); #endif /* ENET_AUTOINIT */ #ifdef EWM_AUTOINIT EWM_Init(); #endif /* EWM_AUTOINIT */ #ifdef FB_AUTOINIT FB_Init(); #endif /* FB_AUTOINIT */ #ifdef FMC_AUTOINIT FMC_Init(); #endif /* FMC_AUTOINIT */ #ifdef FTFE_AUTOINIT FTFE_Init(); #endif /* FTFE_AUTOINIT */ #ifdef FTM0_AUTOINIT FTM0_Init(); #endif /* FTM0_AUTOINIT */ #ifdef FTM1_AUTOINIT FTM1_Init(); #endif /* FTM1_AUTOINIT */ #ifdef FTM2_AUTOINIT FTM2_Init(); #endif /* FTM2_AUTOINIT */ #ifdef FTM3_AUTOINIT FTM3_Init(); #endif /* FTM3_AUTOINIT */ #ifdef I2C0_AUTOINIT I2C0_Init(); #endif /* I2C0_AUTOINIT */ #ifdef I2C1_AUTOINIT I2C1_Init(); #endif /* I2C1_AUTOINIT */ #ifdef I2C2_AUTOINIT I2C2_Init(); #endif /* I2C2_AUTOINIT */ #ifdef I2S0_AUTOINIT I2S0_Init(); #endif /* I2S0_AUTOINIT */ #ifdef LLWU_AUTOINIT LLWU_Init(); #endif /* LLWU_AUTOINIT */ #ifdef LPTMR0_AUTOINIT LPTMR0_Init(); #endif /* LPTMR0_AUTOINIT */ #ifdef MPU_AUTOINIT MPU_Init(); #endif /* MPU_AUTOINIT */ #ifdef PDB0_AUTOINIT PDB0_Init(); #endif /* PDB0_AUTOINIT */ #ifdef PIT_AUTOINIT PIT_Init(); #endif /* PIT_AUTOINIT */ #ifdef PTA_AUTOINIT PTA_Init(); #endif /* PTA_AUTOINIT */ #ifdef PTB_AUTOINIT PTB_Init(); #endif /* PTB_AUTOINIT */ #ifdef PTC_AUTOINIT PTC_Init(); #endif /* PTC_AUTOINIT */ #ifdef PTD_AUTOINIT PTD_Init(); #endif /* PTD_AUTOINIT */ #ifdef PTE_AUTOINIT PTE_Init(); #endif /* PTE_AUTOINIT */ #ifdef RCM_AUTOINIT RCM_Init(); #endif /* RCM_AUTOINIT */ #ifdef RNG_AUTOINIT RNG_Init(); #endif /* RNG_AUTOINIT */ #ifdef RTC_AUTOINIT RTC_Init(); #endif /* RTC_AUTOINIT */ #ifdef SDHC_AUTOINIT SDHC_Init(); #endif /* SDHC_AUTOINIT */ #ifdef SMC_AUTOINIT SMC_Init(); #endif /* SMC_AUTOINIT */ #ifdef SPI0_AUTOINIT SPI0_Init(); #endif /* SPI0_AUTOINIT */ #ifdef SPI1_AUTOINIT SPI1_Init(); #endif /* SPI1_AUTOINIT */ #ifdef SPI2_AUTOINIT SPI2_Init(); #endif /* SPI2_AUTOINIT */ #ifdef SystemControl_AUTOINIT SystemControl_Init(); #endif /* SystemControl_AUTOINIT */ #ifdef SysTick_AUTOINIT SysTick_Init(); #endif /* SysTick_AUTOINIT */ #ifdef UART0_AUTOINIT UART0_Init(); #endif /* UART0_AUTOINIT */ #ifdef UART1_AUTOINIT UART1_Init(); #endif /* UART1_AUTOINIT */ #ifdef UART2_AUTOINIT UART2_Init(); #endif /* UART2_AUTOINIT */ #ifdef UART3_AUTOINIT UART3_Init(); #endif /* UART3_AUTOINIT */ #ifdef UART4_AUTOINIT UART4_Init(); #endif /* UART4_AUTOINIT */ #ifdef UART5_AUTOINIT UART5_Init(); #endif /* UART5_AUTOINIT */ #ifdef USB0_AUTOINIT USB0_Init(); #endif /* USB0_AUTOINIT */ #ifdef USBDCD_AUTOINIT USBDCD_Init(); #endif /* USBDCD_AUTOINIT */ #ifdef VREF_AUTOINIT VREF_Init(); #endif /* VREF_AUTOINIT */ #ifdef WDOG_AUTOINIT WDOG_Init(); #endif /* WDOG_AUTOINIT */ }
int main(void) { /////////////////////////////////////////// uint8_t Key; int i; //////////////////////////////////////////////// brightness = 0x40;//亮度 contrast = 0x70;//对比度 saturation = 0x40;//饱和度 memset(outbuf,0,64); SystemInit(); //GPIOInit(); //chumo改版加入 //Touch_Initializtion(); Init_NVIC(); //中断向量表注册函数 Init_LED(); //LED初始化 Init_KEY(); //按键初始化 Init_IIC(); //24LC02初始化 Init_TOUCH(); // 触摸屏配置 //Touch_Initializtion(); ////////// UART3_Init(115200); PrintStr("=========12345========\r\n"); //ADC_Init_Ex(); //Tim3_ETR_Init(); //Tim4_Init(); //CAN1_Init(250); // USB_Init(); // RCC_AHBPeriphClockCmd(RCC_AHBPeriph_FSMC, ENABLE); /* Configure FSMC Bank1 NOR/SRAM3 */ //FSMC_SRAM_Init(); DelayMs(300); //InitSSD1963(); //LcdInitTest(); LcdInit(); LcdClear(GRAY0); DispButton(button2); DisplayButtonUp(2, 2,400,25); LcdPrintStr("版权所有(C)mmmmmmmmmmmmmmmmmmmm",4,4,BLUE,GRAY0); DisplayButtonUp(402,2,478,25); LcdPrintf(410,4,BLACK,GRAY0,"%02d:%02d:%02d",12,12,12); DisplayButtonDownColor(200, 410, 290, 470, RED); DisplayButtonDownColor(412, 410, 502, 470, GREEN); LcdPrintStr("删除",230,432,WHITE,RED); LcdPrintStr("确认",442,432,BLACK,GREEN); LcdFillRec(200,100,502,190,DGREEN); DisplayButtonUp(190,90,512,475); DelayMs(1000); LcdFillRec(190,90,512,475,RED); DelayMs(1000); LcdFillRec(190,90,512,475,GRAY0); DispButton(button2); DisplayButtonDownColor(200, 410, 290, 470, RED); DisplayButtonDownColor(412, 410, 502, 470, GREEN); LcdPrintStr("删除",230,432,WHITE,RED); LcdPrintStr("确认",442,432,BLACK,GREEN); LcdFillRec(200,100,502,190,DGREEN); DisplayButtonUp(190,90,512,475); // Pen_Point.Key_Sta==Key_Up; //LcdPrint16bitBmp(gImage, 16, 16, 490, 368 ); while(1) { // if(Pen_Point.Key_Sta==Key_Down) // { // LcdPrintf( 16,16,BLUE,WHITE,"%d",ADS_Read_AD(CMD_RDX)); // LcdPrintf( 16,32,BLUE,WHITE,"%d",ADS_Read_AD(CMD_RDY)); // } //LcdPrintf( 16,32,BLUE,WHITE,"%d",Touch_GetPhyY()); //LcdPrintf( 16,16,BLUE,WHITE,"%d",Touch_GetPhyX()); // DelayMs(200); // LED1 = ~LED1; //LED1=~LED1; //DelayMs(50); //////////////////////////////////////// Key=KEY_Scan(); if(Pen_Point.Key_Sta==Key_Down)//触摸屏被按下 { Pen_Int_Set(0); //关闭中断 do { LcdPrintf( 16,16,BLUE,WHITE,"%d",ADS_Read_AD(CMD_RDX)); LcdPrintf( 16,32,BLUE,WHITE,"%d",ADS_Read_AD(CMD_RDY)); Convert_Pos(); Pen_Point.Key_Sta=Key_Up; //GPIOC->ODR|=1<<5;//临时添加 // LcdPrintf(16,16,BLUE,BLACK,"%d\n",Pen_Point.X); // LcdPrintf(16,32,BLUE,BLACK,"%d\n",Pen_Point.Y); if(Pen_Point.X0>216&&Pen_Point.Y0<48)LcdClear(RED);//清除 else { Draw_Big_Point(Pen_Point.X0,Pen_Point.Y0);//画图 GPIOC->ODR|=1<<5; //PC5 上拉 } }while(PEN==0);//如果PEN一直有效,则一直执行 Pen_Int_Set(1);//开启中断 } else DelayMs(1); if(Key==USER)//USER按下,则执行校准程序 { LcdClear(BlackColor);//清屏 Touch_Adjust(); //屏幕校准 Save_Adjdata(); LcdClear(RED); } i++; if(i==1) { i=0; LED1=~LED1; } } /////////////////////////////////// /* if(_SEC_) { _SEC_ = 0; GPIO_WriteBit(GPIOC, GPIO_Pin_6, (BitAction)(1 - GPIO_ReadOutputDataBit(GPIOC, GPIO_Pin_6))); LcdPrintf(300,460,BLACK,GRAY0,"%03d",i); //i += 10; SetSensors(); for(u8 i=1; i<=16; i++) Printf("No.%d=%d,",i,GetSensorVoltage(i)); PrintStr("\r\n"); } UART1_SendByte(0x55); DelayMs(1); } */ }