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//舉例: PA0_OUT; //PA0配置成推挽輸出模式
PA0=1; //PA0輸出1
...
PA0=0; //PA0輸出0
當(dāng)需要PA0改為輸入時(shí)����,需要在使用前配置成輸入
PA0_IN; //PA0配置成上下拉輸入
PA0=1; //PA0配置成上拉輸入(PA0=0配置成下拉輸入)
if(PA0in==0) PA11=1; //讀取PA0的電平狀態(tài)
當(dāng)PA0作為輸入使用完畢,PA0口又繼續(xù)上面的輸出工作�����,則重新再配置一次
PA0_OUT; //恢復(fù)PA0為輸出
PA0=0; //PA0輸出0
PA_OUT; //PA(16個(gè)IO口)配置成推挽輸出模式
PA=0xFF00; //高8位輸出1����,低8位輸出0
PA_IN; //PA(16個(gè)IO口)配置成上下拉輸入
PA=0xFFFF; //PA(16個(gè)IO口)配置成上拉輸入
PB0_OUT; //PB0配置成推挽輸出模式
if(PAin==0xFFFF) PB0=1; //如果PA16個(gè)IO都等于1,則PB0置1
#define BITBAND(addr, bitnum) ((addr & 0xF0000000)+0x2000000+((addr &0xFFFFF)<<5)+(bitnum<<2))
#define MEM_ADDR(addr) *((volatile unsigned long *)(addr))
#define BIT_ADDR(addr, bitnum) MEM_ADDR(BITBAND(addr, bitnum))
#define GPIOA_ODR_Addr (GPIOA_BASE+0x0C) //0x4001080C
#define GPIOB_ODR_Addr (GPIOB_BASE+0x0C) //0x40010C0C
#define GPIOC_ODR_Addr (GPIOC_BASE+0x0C) //0x4001100C
#define GPIOD_ODR_Addr (GPIOD_BASE+0x0C) //0x4001140C
#define GPIOE_ODR_Addr (GPIOE_BASE+0x0C) //0x4001180C
#define GPIOF_ODR_Addr (GPIOF_BASE+0x0C) //0x40011808
#define GPIOG_ODR_Addr (GPIOG_BASE+0x0C) //0x40011808
#define GPIOA_IDR_Addr (GPIOA_BASE+0x08) //0x40010808
#define GPIOB_IDR_Addr (GPIOB_BASE+0x08) //0x40010C08
#define GPIOC_IDR_Addr (GPIOC_BASE+0x08) //0x40011008
#define GPIOD_IDR_Addr (GPIOD_BASE+0x08) //0x40011408
#define GPIOE_IDR_Addr (GPIOE_BASE+0x08) //0x40011808
#define GPIOF_IDR_Addr (GPIOF_BASE+0x08) //0x40011808
#define GPIOG_IDR_Addr (GPIOG_BASE+0x08) //0x40011808
//-----------------------------------------------------
/*--------------------------------------------------------------------------------*/
#define PA0_OUT RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xFFFFFFF0; GPIOA->CRL|=0x00000003
#define PA1_OUT RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xFFFFFF0F; GPIOA->CRL|=0x00000030
#define PA2_OUT RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xFFFFF0FF; GPIOA->CRL|=0x00000300
#define PA3_OUT RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xFFFF0FFF; GPIOA->CRL|=0x00003000
#define PA4_OUT RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xFFF0FFFF; GPIOA->CRL|=0x00030000
#define PA5_OUT RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xFF0FFFFF; GPIOA->CRL|=0x00300000
#define PA6_OUT RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xF0FFFFFF; GPIOA->CRL|=0x03000000
#define PA7_OUT RCC->APB2ENR|=1<<2;GPIOA->CRL&=0x0FFFFFFF; GPIOA->CRL|=0x30000000
#define PA8_OUT RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xFFFFFFF0; GPIOA->CRH|=0x00000003
#define PA9_OUT RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xFFFFFF0F; GPIOA->CRH|=0x00000030
#define PA10_OUT RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xFFFFF0FF; GPIOA->CRH|=0x00000300
#define PA11_OUT RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xFFFF0FFF; GPIOA->CRH|=0x00003000
#define PA12_OUT RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xFFF0FFFF; GPIOA->CRH|=0x00030000
#define PA13_OUT RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xFF0FFFFF; GPIOA->CRH|=0x00300000
#define PA14_OUT RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xF0FFFFFF; GPIOA->CRH|=0x03000000
#define PA15_OUT RCC->APB2ENR|=1<<2;GPIOA->CRH&=0x0FFFFFFF; GPIOA->CRH|=0x30000000
#define PA0_IN RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xFFFFFFF0; GPIOA->CRL|=0x00000008
#define PA1_IN RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xFFFFFF0F; GPIOA->CRL|=0x00000080
#define PA2_IN RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xFFFFF0FF; GPIOA->CRL|=0x00000800
#define PA3_IN RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xFFFF0FFF; GPIOA->CRL|=0x00008000
#define PA4_IN RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xFFF0FFFF; GPIOA->CRL|=0x00080000
#define PA5_IN RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xFF0FFFFF; GPIOA->CRL|=0x00800000
#define PA6_IN RCC->APB2ENR|=1<<2;GPIOA->CRL&=0xF0FFFFFF; GPIOA->CRL|=0x08000000
#define PA7_IN RCC->APB2ENR|=1<<2;GPIOA->CRL&=0x0FFFFFFF; GPIOA->CRL|=0x80000000
#define PA8_IN RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xFFFFFFF0; GPIOA->CRH|=0x00000008
#define PA9_IN RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xFFFFFF0F; GPIOA->CRH|=0x00000080
#define PA10_IN RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xFFFFF0FF; GPIOA->CRH|=0x00000800
#define PA11_IN RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xFFFF0FFF; GPIOA->CRH|=0x00008000
#define PA12_IN RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xFFF0FFFF; GPIOA->CRH|=0x00080000
#define PA13_IN RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xFF0FFFFF; GPIOA->CRH|=0x00800000
#define PA14_IN RCC->APB2ENR|=1<<2;GPIOA->CRH&=0xF0FFFFFF; GPIOA->CRH|=0x08000000
#define PA15_IN RCC->APB2ENR|=1<<2;GPIOA->CRH&=0x0FFFFFFF; GPIOA->CRH|=0x80000000
//-----------------------------------------------------
#define PB0_OUT RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xFFFFFFF0; GPIOB->CRL|=0x00000003
#define PB1_OUT RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xFFFFFF0F; GPIOB->CRL|=0x00000030
#define PB2_OUT RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xFFFFF0FF; GPIOB->CRL|=0x00000300
#define PB3_OUT RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xFFFF0FFF; GPIOB->CRL|=0x00003000
#define PB4_OUT RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xFFF0FFFF; GPIOB->CRL|=0x00030000
#define PB5_OUT RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xFF0FFFFF; GPIOB->CRL|=0x00300000
#define PB6_OUT RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xF0FFFFFF; GPIOB->CRL|=0x03000000
#define PB7_OUT RCC->APB2ENR|=1<<3;GPIOB->CRL&=0x0FFFFFFF; GPIOB->CRL|=0x30000000
#define PB8_OUT RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xFFFFFFF0; GPIOB->CRH|=0x00000003
#define PB9_OUT RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xFFFFFF0F; GPIOB->CRH|=0x00000030
#define PB10_OUT RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xFFFFF0FF; GPIOB->CRH|=0x00000300
#define PB11_OUT RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xFFFF0FFF; GPIOB->CRH|=0x00003000
#define PB12_OUT RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xFFF0FFFF; GPIOB->CRH|=0x00030000
#define PB13_OUT RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xFF0FFFFF; GPIOB->CRH|=0x00300000
#define PB14_OUT RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xF0FFFFFF; GPIOB->CRH|=0x03000000
#define PB15_OUT RCC->APB2ENR|=1<<3;GPIOB->CRH&=0x0FFFFFFF; GPIOB->CRH|=0x30000000
#define PB0_IN RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xFFFFFFF0; GPIOB->CRL|=0x00000008
#define PB1_IN RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xFFFFFF0F; GPIOB->CRL|=0x00000080
#define PB2_IN RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xFFFFF0FF; GPIOB->CRL|=0x00000800
#define PB3_IN RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xFFFF0FFF; GPIOB->CRL|=0x00008000
#define PB4_IN RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xFFF0FFFF; GPIOB->CRL|=0x00080000
#define PB5_IN RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xFF0FFFFF; GPIOB->CRL|=0x00800000
#define PB6_IN RCC->APB2ENR|=1<<3;GPIOB->CRL&=0xF0FFFFFF; GPIOB->CRL|=0x08000000
#define PB7_IN RCC->APB2ENR|=1<<3;GPIOB->CRL&=0x0FFFFFFF; GPIOB->CRL|=0x80000000
#define PB8_IN RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xFFFFFFF0; GPIOB->CRH|=0x00000008
#define PB9_IN RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xFFFFFF0F; GPIOB->CRH|=0x00000080
#define PB10_IN RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xFFFFF0FF; GPIOB->CRH|=0x00000800
#define PB11_IN RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xFFFF0FFF; GPIOB->CRH|=0x00008000
#define PB12_IN RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xFFF0FFFF; GPIOB->CRH|=0x00080000
#define PB13_IN RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xFF0FFFFF; GPIOB->CRH|=0x00800000
#define PB14_IN RCC->APB2ENR|=1<<3;GPIOB->CRH&=0xF0FFFFFF; GPIOB->CRH|=0x08000000
#define PB15_IN RCC->APB2ENR|=1<<3;GPIOB->CRH&=0x0FFFFFFF; GPIOB->CRH|=0x80000000
#define PA0 BIT_ADDR(GPIOA_ODR_Addr, 0) //輸出
#define PA1 BIT_ADDR(GPIOA_ODR_Addr, 1) //輸出
#define PA2 BIT_ADDR(GPIOA_ODR_Addr, 2) //輸出
#define PA3 BIT_ADDR(GPIOA_ODR_Addr, 3) //輸出
#define PA4 BIT_ADDR(GPIOA_ODR_Addr, 4) //輸出
#define PA5 BIT_ADDR(GPIOA_ODR_Addr, 5) //輸出
#define PA6 BIT_ADDR(GPIOA_ODR_Addr, 6) //輸出
#define PA7 BIT_ADDR(GPIOA_ODR_Addr, 7) //輸出
#define PA8 BIT_ADDR(GPIOA_ODR_Addr, 8) //輸出
#define PA9 BIT_ADDR(GPIOA_ODR_Addr, 9) //輸出
#define PA10 BIT_ADDR(GPIOA_ODR_Addr, 10) //輸出
#define PA11 BIT_ADDR(GPIOA_ODR_Addr, 11) //輸出
#define PA12 BIT_ADDR(GPIOA_ODR_Addr, 12) //輸出
#define PA13 BIT_ADDR(GPIOA_ODR_Addr, 13) //輸出
#define PA14 BIT_ADDR(GPIOA_ODR_Addr, 14) //輸出
#define PA15 BIT_ADDR(GPIOA_ODR_Addr, 15) //輸出
#define PA0in BIT_ADDR(GPIOA_IDR_Addr, 0) //輸入
#define PA1in BIT_ADDR(GPIOA_IDR_Addr, 1) //輸入
#define PA2in BIT_ADDR(GPIOA_IDR_Addr, 2) //輸入
#define PA3in BIT_ADDR(GPIOA_IDR_Addr, 3) //輸入
#define PA4in BIT_ADDR(GPIOA_IDR_Addr, 4) //輸入
#define PA5in BIT_ADDR(GPIOA_IDR_Addr, 5) //輸入
#define PA6in BIT_ADDR(GPIOA_IDR_Addr, 6) //輸入
#define PA7in BIT_ADDR(GPIOA_IDR_Addr, 7) //輸入
#define PA8in BIT_ADDR(GPIOA_IDR_Addr, 8) //輸入
#define PA9in BIT_ADDR(GPIOA_IDR_Addr, 9) //輸入
#define PA10in BIT_ADDR(GPIOA_IDR_Addr, 10) //輸入
#define PA11in BIT_ADDR(GPIOA_IDR_Addr, 11) //輸入
#define PA12in BIT_ADDR(GPIOA_IDR_Addr, 12) //輸入
#define PA13in BIT_ADDR(GPIOA_IDR_Addr, 13) //輸入
#define PA14in BIT_ADDR(GPIOA_IDR_Addr, 14) //輸入
#define PA15in BIT_ADDR(GPIOA_IDR_Addr, 15) //輸入
//-------------
#define PB0 BIT_ADDR(GPIOB_ODR_Addr, 0) //輸出
#define PB1 BIT_ADDR(GPIOB_ODR_Addr, 1) //輸出
#define PB2 BIT_ADDR(GPIOB_ODR_Addr, 2) //輸出
#define PB3 BIT_ADDR(GPIOB_ODR_Addr, 3) //輸出
#define PB4 BIT_ADDR(GPIOB_ODR_Addr, 4) //輸出
#define PB5 BIT_ADDR(GPIOB_ODR_Addr, 5) //輸出
#define PB6 BIT_ADDR(GPIOB_ODR_Addr, 6) //輸出
#define PB7 BIT_ADDR(GPIOB_ODR_Addr, 7) //輸出
#define PB8 BIT_ADDR(GPIOB_ODR_Addr, 8) //輸出
#define PB9 BIT_ADDR(GPIOB_ODR_Addr, 9) //輸出
#define PB10 BIT_ADDR(GPIOB_ODR_Addr, 10) //輸出
#define PB11 BIT_ADDR(GPIOB_ODR_Addr, 11) //輸出
#define PB12 BIT_ADDR(GPIOB_ODR_Addr, 12) //輸出
#define PB13 BIT_ADDR(GPIOB_ODR_Addr, 13) //輸出
#define PB14 BIT_ADDR(GPIOB_ODR_Addr, 14) //輸出
#define PB15 BIT_ADDR(GPIOB_ODR_Addr, 15) //輸出
#define PB0in BIT_ADDR(GPIOB_IDR_Addr, 0) //輸入
#define PB1in BIT_ADDR(GPIOB_IDR_Addr, 1) //輸入
#define PB2in BIT_ADDR(GPIOB_IDR_Addr, 2) //輸入
#define PB3in BIT_ADDR(GPIOB_IDR_Addr, 3) //輸入
#define PB4in BIT_ADDR(GPIOB_IDR_Addr, 4) //輸入
#define PB5in BIT_ADDR(GPIOB_IDR_Addr, 5) //輸入
#define PB6in BIT_ADDR(GPIOB_IDR_Addr, 6) //輸入
#define PB7in BIT_ADDR(GPIOB_IDR_Addr, 7) //輸入
#define PB8in BIT_ADDR(GPIOB_IDR_Addr, 8) //輸入
#define PB9in BIT_ADDR(GPIOB_IDR_Addr, 9) //輸入
#define PB10in BIT_ADDR(GPIOB_IDR_Addr, 10) //輸入
#define PB11in BIT_ADDR(GPIOB_IDR_Addr, 11) //輸入
#define PB12in BIT_ADDR(GPIOB_IDR_Addr, 12) //輸入
#define PB13in BIT_ADDR(GPIOB_IDR_Addr, 13) //輸入
#define PB14in BIT_ADDR(GPIOB_IDR_Addr, 14) //輸入
#define PB15in BIT_ADDR(GPIOB_IDR_Addr, 15) //輸入
#define PA MEM_ADDR(GPIOA_ODR_Addr) //PA 16個(gè)IO口同時(shí)動(dòng)作
#define PB MEM_ADDR(GPIOB_ODR_Addr)
#define PAin MEM_ADDR(GPIOA_IDR_Addr)
#define PBin MEM_ADDR(GPIOB_IDR_Addr)
想要完整的去下我的那個(gè)stm32多任務(wù)+仿51的那個(gè) |
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