• Keil C51 的printf


    转自:http://blog.csdn.net/zhanglianpin/article/details/44779009

    在Keil C51 中使用printf ,首先需要重新实现 putchar(char c)函数。此函数在

    char putchar (char c)   
    {        
        ES=0;        
        SBUF = c;        
        while(TI==0);        
        TI=0;        
        ES=1;        
        return 0;
    }

    我们先分析一下上面这个程序哈, 
    关闭串口中断 
    发送单字节数据 
    等待发送完毕 
    清除TI标志 
    开启串口中断

    在main函数里可以直接使用printf函数进行输出了。 
    但是,我一直存在这样一个疑惑:

    void main()
    {
        unsigned char test1 = 55;
        printf("the test is %d
    ",test1);
    }

    使用串口输出的数值一直不对,我后来自己理解,%d是整型,而在Keil C51整型占用2个byte,所以我一般的解决办法是做一次强制类型转换:

    void main()
    {
        unsigned char test1 = 55;
        printf("the test is %d
    ",(int)test1);
    }

    后来阅读Keil C51的帮助手册: 
    得到这样一条信息:

    格式含义针对类型
    %d 两个字节变量 int
    %bd 单字节变量 char
    %ld 四字节变量 long int

    所以上面的问题的另一个解决方案是:

    void main()
    {
        unsigned char test1 = 55;
        printf("the test is %bd
    ",test1);
    }

    下面附上Keil C51手册内容。 
    int printf ( 

    const char fmtstr / format string */ 
    <[>, arguments … <]>); /* additional arguments */

    Description The printf function formats a series of strings and numeric values and builds a string to write to the output stream using the putchar function. The fmtstr argument is a format string that may be composed of characters, escape sequences, and format specifications.

    Ordinary characters and escape sequences are copied to the stream in the order in which they are interpreted. Format specifications always begin with a percent sign (‘%’) and require that additional arguments are included in the printf function call.

    The format string is read from left to right. The first format specification encountered references the first argument after fmtstr and converts and outputs it using the format specification. The second format specification accesses the second argument after fmtstr, and so on. If there are more arguments than format specifications, extra arguments are ignored. Results are unpredictable if there are not enough arguments for the format specifications or if the argument types do not match those specified by fmtstr.

    Format specifications have the following general format:

    % <[>flags<]> <[>width<]> <[>.precision<]> <[>{b|B|l|L}<]> type 
    Each field in the format specification may be a single character or a number which specifies a particular format option.

    The type field is a single character that specifies whether the argument is interpreted as a character, string, number, or pointer, as shown in the following table.

    Type ArgumentType InputFormat
    d int Signed decimal number.
    u unsigned int Unsigned decimal number.
    o unsigned int Unsigned octal number.
    x unsigned int Unsigned hexadecimal number using “0123456789abcedf”.
    X unsigned int Unsigned hexadecimal number using “0123456789ABCDEF”.
    f float Floating-point number formatted as<[>-<]>dddd.dddd.
    e float Floating-point number formatted as<[>-<]>d.dddde<[>-<]>dd.
    E float Floating-point number formatted as<[>-<]>d.ddddE<[>-<]>dd.
    g float Floating-point number using either the e or f format, whichever is more compact for the specified value and precision.
    G float Floating-point number using either the E or f format, whichever is more compact for the specified value and precision.
    c char A single character.
    s * A string of characters terminated by a null character (‘’).
    p * A generic pointer formatted as t:aaaa where t is the memory type and aaaa is the hexadecimal address.

    Note

    The optional characters l or L may immediately precede the type character to respectively specify long types for d, i, u, o, x, and X. 
    The optional characters b or B may immediately precede the type character to respectively specify char types for d, i, u, o, x, and X. 
    Characters following a percent sign that are not recognized as a format specification are treated as ordinary characters. For example, “%%” writes a single percent sign to the output stream.

    The flags field is a single character used to justify the output and to print +/- signs and blanks, decimal points, and octal and hexadecimal prefixes, as shown in the following table.

    Flag Description 
    - Left justify the output in the specified field width. 
    + Prefix the output value with a + or - sign if the output is a signed type. 
    blank (’ ‘) Prefix the output value with a blank if it is a signed positive value. Otherwise, no blank is prefixed.

    Prefixes a non-zero output value with 0, 0x, or 0X when used with o, x, and X field types, respectively.

    When used with the e, E, f, g, and G field types, the # flag forces the output value to include a decimal point.

    The # flag is ignored in all other cases.

    The width field is a non-negative number that specifies the minimum number of characters printed. If the number of characters in the output value is less than width, blanks are added on the left (by default) or right (when the - flag is specified) to pad to the minimum width. If width is prefixed with a ‘0’, zeros are padded instead of blanks. The width field never truncates the output. If the length of the output value exceeds the specified width, all characters are output.

    The width field may be an asterisk (‘*’), in which case an int argument from the argument list provides the width value. Specifying a ‘b’ in front of the asterisk specifies that the argument is an unsigned char.

    The precision field is a non-negative number that specifies the number of characters to print, the number of significant digits, or the number of decimal places. The precision field can cause truncation or rounding of the output value in the case of a floating-point number as specified in the following table.

    Type Precision Field Meaning 
    d,u,o,x,X The precision field specifies the minimum number of digits that are included in the output value. Digits are not truncated if the number of digits in the argument exceeds that defined in the precision field. If the number of digits in the argument is less than the precision field, the output value is padded on the left with zeros. 
    f The precision field specifies the number of digits to the right of the decimal point. The last digit is rounded. 
    e,E The precision field specifies the number of digits to the right of the decimal point. The last digit is rounded. 
    g,G The precision field specifies the maximum number of significant digits in the output value. 
    s The precision field specifies the maximum number of characters in the output value. Excess characters are not output. 
    c,p The precision field has no effect on these field types.

    The precision field may be an asterisk (‘*’), in which case an int argument from the argument list provides the value. Specifying a ‘b’ in front of the asterisk specifies that the argument is an unsigned char.

    Note

    You must ensure that the argument type matches that of the format specification. You may use type casts to ensure that the proper type is passed to printf. 
    This function is implementation-specific and is based on the operation of the _getkey and putchar functions. These functions, as provided in the standard library, read and write characters using the microcontroller’s serial port. Custom functions may use other I/O devices. 
    The total number of bytes that may be passed to this function is limited due to the memory restrictions imposed by the 8051. A maximum of 15 bytes may be passed in SMALL or COMPACT model. A maximum of 40 bytes may be passed in LARGE model.

    Return Value The printf function returns the number of characters actually written to the output stream.

    See Also gets, printf517, puts, scanf, scanf517, sprintf, sprintf517, sscanf, sscanf517, vprintf, vsprintf

    Example #include <stdio.h>
    
    void tst_printf (void) {
      char a = 1;
      int b  = 12365;
      long c = 0x7FFFFFFF;
    
      unsigned char x = 'A';
      unsigned int y  = 54321;
      unsigned long z = 0x4A6F6E00;
    
      float f = 10.0;
      float g = 22.95;
    
      char buf [] = "Test String";
      char *p = buf;
    
      printf ("char %bd int %d long %ld
    ",a,b,c);
      printf ("Uchar %bu Uint %u Ulong %lu
    ",x,y,z);
      printf ("xchar %bx xint %x xlong %lx
    ",x,y,z);
      printf ("String %s is at address %p
    ",buf,p);
      printf ("%f != %g
    ", f, g);
      printf ("%*f != %*g
    ", (int)8, f, (int)8, g);
    }
    
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  • 原文地址:https://www.cnblogs.com/shirishiqi/p/5394132.html
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