/****************************************************************************************************************************************** * 文件名称: SWM320_port.c * 功能说明: SWM320单片机的端口引脚功能选择库函数 * 技术支持: http://www.synwit.com.cn/e/tool/gbook/?bid=1 * 注意事项: * 版本日期: V1.1.0 2017年10月25日 * 升级记录: * * ******************************************************************************************************************************************* * @attention * * THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS WITH CODING INFORMATION * REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE TIME. AS A RESULT, SYNWIT SHALL NOT BE HELD LIABLE * FOR ANY DIRECT, INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING FROM THE CONTENT * OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE CODING INFORMATION CONTAINED HEREIN IN CONN- * -ECTION WITH THEIR PRODUCTS. * * COPYRIGHT 2012 Synwit Technology *******************************************************************************************************************************************/ #include "SWM320.h" #include "SWM320_port.h" /****************************************************************************************************************************************** * 函数名称: PORT_Init() * 功能说明: 端口引脚功能选择,可用的功能见"SWM320_port.h"文件 * 输 入: uint32_t PORTx 指定PORT端口,有效值包括PORTA、PORTB、PORTC、PORTM、PORTN、PORTP * uint32_t n 指定PORT引脚,有效值包括PIN0、PIN1、PIN2、... ... PIN22、PIN23 * uint32_t func 指定端口引脚要设定的功能,其可取值见"SWM320_port.h"文件 * uint32_t digit_in_en 数字输入使能 * 输 出: 无 * 注意事项: 当引脚标号n为偶数时,func取值只能是FUNMUX0开头的,如FUNMUX0_UART0_RXD * 当引脚标号n为奇数时,func取值只能是FUNMUX1开头的,如FUNMUX1_UART0_TXD ******************************************************************************************************************************************/ void PORT_Init(uint32_t PORTx, uint32_t n, uint32_t func, uint32_t digit_in_en) { switch((uint32_t)PORTx) { case ((uint32_t)PORTA): if(func > 99) { if(n < PIN6) { PORT->PORTA_MUX0 &= ~(0x1F << (n*5)); PORT->PORTA_MUX0 |= (func-100) << (n*5); } else if(n < PIN12) { PORT->PORTA_MUX1 &= ~(0x1F << ((n-6)*5)); PORT->PORTA_MUX1 |= (func-100) << ((n-6)*5); } } PORT->PORTA_SEL &= ~(0x03 << (n*2)); PORT->PORTA_SEL |= (func > 99 ? 1 : func) << (n*2); PORT->PORTA_INEN &= ~(0x01 << n); PORT->PORTA_INEN |= (digit_in_en << n); break; case ((uint32_t)PORTB): if(func > 99) { if(n < PIN6) { PORT->PORTB_MUX0 &= ~(0x1F << (n*5)); PORT->PORTB_MUX0 |= (func-100) << (n*5); } else if(n < PIN12) { PORT->PORTB_MUX1 &= ~(0x1F << ((n-6)*5)); PORT->PORTB_MUX1 |= (func-100) << ((n-6)*5); } } PORT->PORTB_SEL &= ~(0x03 << (n*2)); PORT->PORTB_SEL |= (func > 99 ? 1 : func) << (n*2); PORT->PORTB_INEN &= ~(0x01 << n); PORT->PORTB_INEN |= (digit_in_en << n); break; case ((uint32_t)PORTC): if(func > 99) { if(n < PIN6) { PORT->PORTC_MUX0 &= ~(0x1F << (n*5)); PORT->PORTC_MUX0 |= (func-100) << (n*5); } else if(n < PIN12) { PORT->PORTC_MUX1 &= ~(0x1F << ((n-6)*5)); PORT->PORTC_MUX1 |= (func-100) << ((n-6)*5); } } PORT->PORTC_SEL &= ~(0x03 << (n*2)); PORT->PORTC_SEL |= (func > 99 ? 1 : func) << (n*2); PORT->PORTC_INEN &= ~(0x01 << n); PORT->PORTC_INEN |= (digit_in_en << n); break; case ((uint32_t)PORTM): if(func > 99) { if(n < PIN6) { PORT->PORTM_MUX0 &= ~(0x1F << (n*5)); PORT->PORTM_MUX0 |= (func-100) << (n*5); } else if(n < PIN12) { PORT->PORTM_MUX1 &= ~(0x1F << ((n-6)*5)); PORT->PORTM_MUX1 |= (func-100) << ((n-6)*5); } else if(n < PIN18) { PORT->PORTM_MUX2 &= ~(0x1F << ((n-12)*5)); PORT->PORTM_MUX2 |= (func-100) << ((n-12)*5); } else if(n < PIN24) { PORT->PORTM_MUX3 &= ~(0x1F << ((n-18)*5)); PORT->PORTM_MUX3 |= (func-100) << ((n-18)*5); } } if(n < 16) { PORT->PORTM_SEL0 &= ~(0x03 << (n*2)); PORT->PORTM_SEL0 |= (func > 99 ? 1 : func) << (n*2); } else { PORT->PORTM_SEL1 &= ~(0x03 << ((n-16)*2)); PORT->PORTM_SEL1 |= (func > 99 ? 1 : func) << ((n-16)*2); } PORT->PORTM_INEN &= ~(0x01 << n); PORT->PORTM_INEN |= (digit_in_en << n); break; case ((uint32_t)PORTN): if(func > 99) { if(n < PIN6) { PORT->PORTN_MUX0 &= ~(0x1F << (n*5)); PORT->PORTN_MUX0 |= (func-100) << (n*5); } else if(n < PIN12) { PORT->PORTN_MUX1 &= ~(0x1F << ((n-6)*5)); PORT->PORTN_MUX1 |= (func-100) << ((n-6)*5); } else if(n < PIN18) { PORT->PORTN_MUX2 &= ~(0x1F << ((n-12)*5)); PORT->PORTN_MUX2 |= (func-100) << ((n-12)*5); } } if(n < 16) { PORT->PORTN_SEL0 &= ~(0x03 << (n*2)); PORT->PORTN_SEL0 |= (func > 99 ? 1 : func) << (n*2); } else { PORT->PORTN_SEL1 &= ~(0x03 << ((n-16)*2)); PORT->PORTN_SEL1 |= (func > 99 ? 1 : func) << ((n-16)*2); } PORT->PORTN_INEN &= ~(0x01 << n); PORT->PORTN_INEN |= (digit_in_en << n); break; case ((uint32_t)PORTP): if(func > 99) { if(n < PIN6) { PORT->PORTP_MUX0 &= ~(0x1F << (n*5)); PORT->PORTP_MUX0 |= (func-100) << (n*5); } else if(n < PIN12) { PORT->PORTP_MUX1 &= ~(0x1F << ((n-6)*5)); PORT->PORTP_MUX1 |= (func-100) << ((n-6)*5); } else if(n < PIN18) { PORT->PORTP_MUX2 &= ~(0x1F << ((n-12)*5)); PORT->PORTP_MUX2 |= (func-100) << ((n-12)*5); } else if(n < PIN24) { PORT->PORTP_MUX3 &= ~(0x1F << ((n-18)*5)); PORT->PORTP_MUX3 |= (func-100) << ((n-18)*5); } } if(n < 16) { PORT->PORTP_SEL0 &= ~(0x03 << (n*2)); PORT->PORTP_SEL0 |= (func > 99 ? 1 : func) << (n*2); } else { PORT->PORTP_SEL1 &= ~(0x03 << ((n-16)*2)); PORT->PORTP_SEL1 |= (func > 99 ? 1 : func) << ((n-16)*2); } PORT->PORTP_INEN &= ~(0x01 << n); PORT->PORTP_INEN |= (digit_in_en << n); break; } }