void New_Line(int i) { switch(i) { case 1: UART1_OutChar(0x0A); /* n is between 0 and 9 */ UART1_OutChar(0x0D); break; case 2: UART2_OutChar(0x0A); UART2_OutChar(0x0D); break; case 3: UART3_OutChar(0x0A); UART3_OutChar(0x0D); break; case 4: UART4_OutChar(0x0A); UART4_OutChar(0x0D); break; case 5: UART5_OutChar(0x0A); UART5_OutChar(0x0D); break; case 7: UART7_OutChar(0x0A); UART7_OutChar(0x0D); break; } }
void Print_Space(int n,int i) { while(n) { switch(i) { case 1: UART1_OutChar(' '); /* n is between 0 and 9 */ break; case 2: UART2_OutChar(' '); break; case 3: UART3_OutChar(' '); break; case 4: UART4_OutChar(' '); break; case 5: UART5_OutChar(' '); break; case 7: UART7_OutChar(' '); break; } n--; } }
void UART_OutUDec(unsigned long n,int i){ if(n >= 10){ UART_OutUDec(n/10,i); n = n%10; } switch(i) { case 1: UART1_OutChar(n+'0'); /* n is between 0 and 9 */ break; case 2: UART2_OutChar(n+'0'); break; case 3: UART3_OutChar(n+'0'); break; case 4: UART4_OutChar(n+'0'); break; case 5: UART5_OutChar(n+'0'); break; case 7: UART7_OutChar(n+'0'); break; } }
void UART_OutChar(unsigned char data,int i) { switch(i) { case 1: UART1_OutChar(data); break; case 2: UART2_OutChar(data); break; case 3: UART3_OutChar(data); break; case 4: UART4_OutChar(data); break; case 5: UART5_OutChar(data); break; case 7: UART7_OutChar(data); break; } }