uint8_t *和char*的相互转换以及uint8_t *和int16_t*的相互转换
实际应用需要,实现uint8、int16_t、int32_t的按字节传输,实现发送和接收功能。如int16_t,需要将int16_t转为2字节发送,再接收两个字节解码转回为Int16_t。
intx与char *的转换:
#include <iostream>
using namespace std;
int main()
unsigned char buff[7] = {0x00};
unsigned char a = 12;
int16_t b = 13;
int32_t c = 14;
buff[0] = a;
char temp1[2] = "\0";
*(int16_t *)temp1 = (int16_t)b;
buff[1] = temp1[0];
buff[2] = temp1[1];
char temp2[4] = "\0";
*(int32_t *)temp2 = (int32_t)c;
buff[3] = temp2[0];
buff[4] = temp2[1];
buff[5] = temp2[2];
buff[6] = temp2[3];
std::cout << hex << int(a) << " -> " << int(buff[0]) << endl;
std::cout << hex << int(b) << " -> " << int(buff[2]) << int(buff[1]) << endl;
std::cout << hex << int(c) << " -> " << int(buff[6]) << int(buff[5]) << int(buff[4]) << int(buff[3]) << endl;
std::cout << "解析:" << endl;
unsigned char a1 = buff[0];
char t1[2] = {buff[1], buff[2]};
int16_t b1 = *((int16_t *)t1);
char t2[4] = {buff[3], buff[4], buff[5], buff[6]};
int32_t c1 = *((int32_t *)t2);
std::cout << hex << "a1 = " << int(a1) << ", " << dec << int(a1) << endl;
std::cout << hex << "b1 = " << int(b1) << ", " << dec << int(b1) << endl;
std::cout << hex << "c1 = " << int(c1) << ", " << dec << int(c1) << endl;
std::hex 以十六进制显示;
std::dec 以十进制形式显示;
std::oct 以八进制形式显示。
uint8_t *和char*的相互转换以及uint8_t *和int16_t*的相互转换实际应用需要,实现uint8、int16_t、int32_t的按字节传输,实现发送和接收功能。如int16_t,需要将int16_t转为2字节发送,再接收两个字节解码转回为Int16_t。intx与char *的转换:#include <iostream>using namespace std;int main(){ unsigned char buf...
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char、unsigned char、uint8_t、uint16_t
在C/C++中,char用来定义字符型变量,只占一个字节(8位)。
C语言中如int、long、s...
char ch[4]={0xAA,0x11};
printf("%d %d\n",*ch,*(ch+1));
printf("%x %x\n",*ch,*(ch+1));
printf("uint8_t:%d %d\n",*(uint8_t*)ch,*(uint8_t*)(ch+1));//十进制
printf("uint8_t:
