在單片機的編程中對於8位、16位、32位整數的分解與合併用的比較多,今天做了簡要學習,後面還需要加以總結。
練習在VC++6.0編程環境中進行,源程序:
#include <stdio.h>
#include "string.h"
int main(int argc, char argv[])
{
unsigned int Data_Uint32=0x12345678;
unsigned short int Data_Uint16_1,Data_Uint16_2;
unsigned char Data_Uint8_1,Data_Uint8_2,Data_Uint8_3,Data_Uint8_4;
struct StructByte8{
unsigned char Byte01:1;
unsigned char Byte02:1;
unsigned char Byte03:1;
unsigned char Byte04:1;
unsigned char Byte05:1;
unsigned char Byte06:1;
unsigned char Byte07:1;
unsigned char Byte08:1;
} Test1;
unsigned char C1[]="A";
unsigned short int p16=(unsigned short int *)(&Data_Uint32);//定義16位的指針將32位地址強制轉爲16位,高位丟棄取低位
unsigned short int Data_Uint16_2p,Data_Uint16_1p;
printf("32位整數:0x%x\n",Data_Uint32);
printf("-------------------通過指針運算-------------------\n");
Data_Uint16_2p=*(unsigned short int *)p16;
Data_Uint16_1p=*((unsigned short int *)p16+1);
printf("轉換後的16位整數:0x%x,0x%x\n",Data_Uint16_1p,Data_Uint16_2p);
Data_Uint8_1= *(unsigned char *)p16;
Data_Uint8_2= *((unsigned char *)p16+1);
Data_Uint8_3= *((unsigned char *)p16+2);
Data_Uint8_4= *((unsigned char *)p16+3);
printf("轉換後的8位整數:0x%x,0x%x,0x%x,0x%x\n",Data_Uint8_1,Data_Uint8_2,Data_Uint8_3,Data_Uint8_4);
Data_Uint8_1=0;Data_Uint8_2=0;Data_Uint8_3=0;Data_Uint8_4=0;
//直接根據指針取值
//將32位的整數分解成兩個16位的整數,再取低位的16位
//強制轉換,丟棄高位的16位
//32位轉16位
Data_Uint16_1=(unsigned short int)(Data_Uint32>>16);
Data_Uint16_2=(unsigned short int)Data_Uint32;
//32位轉8位
Data_Uint8_1= (unsigned char)(Data_Uint32>>24);
Data_Uint8_2= (unsigned char)(Data_Uint32>>16);
Data_Uint8_3= (unsigned char)(Data_Uint32>>8);
Data_Uint8_4= (unsigned char)Data_Uint32;
printf("-------------------通過位運算-------------------\n");
printf("轉換後的16位整數:0x%x,0x%x\n",Data_Uint16_1,Data_Uint16_2);
printf("轉換後的8位整數:0x%x,0x%x,0x%x,0x%x\n",Data_Uint8_1,Data_Uint8_2,Data_Uint8_3,Data_Uint8_4);
printf("-------------------通過結構運算-------------------\n");
printf("字符A,ASCII爲01000001,結構轉換後的內容\n");
memcpy(&Test1, C1, sizeof(Test1));
printf("Test1.Byte08=%d \n",Test1.Byte08);
printf("Test1.Byte07=%d \n",Test1.Byte07);
printf("Test1.Byte06=%d \n",Test1.Byte06);
printf("Test1.Byte05=%d \n",Test1.Byte05);
printf("Test1.Byte04=%d \n",Test1.Byte04);
printf("Test1.Byte03=%d \n",Test1.Byte03);
printf("Test1.Byte02=%d \n",Test1.Byte02);
printf("Test1.Byte01=%d \n",Test1.Byte01);
Data_Uint8_1=0x89;Data_Uint8_2=0xAB;Data_Uint8_3=0xCD;Data_Uint8_4=0xEF;
printf("-------------------通過位運算合併-------------------\n");
Data_Uint16_1 = (unsigned short int)(Data_Uint8_1 << 8) | (unsigned short int)(Data_Uint8_2);
Data_Uint16_2 = (unsigned short int)(Data_Uint8_3 << 8) | (unsigned short int)(Data_Uint8_4);
Data_Uint32=(unsigned int) (Data_Uint16_1 << 16) | (unsigned int)(Data_Uint16_2);
printf("合併前的8位整數:0x%x,0x%x,0x%x,0x%x\n",Data_Uint8_1,Data_Uint8_2,Data_Uint8_3,Data_Uint8_4);
printf("合併後的16位整數:0x%x,0x%x\n",Data_Uint16_1,Data_Uint16_2);
printf("合併後的32位整數:0x%x\n",Data_Uint32);
return 0;
}
輸出: