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  1. /*
  2.  * Copyright (C) 2001-2004 Jakub Jermar
  3.  * All rights reserved.
  4.  *
  5.  * Redistribution and use in source and binary forms, with or without
  6.  * modification, are permitted provided that the following conditions
  7.  * are met:
  8.  *
  9.  * - Redistributions of source code must retain the above copyright
  10.  *   notice, this list of conditions and the following disclaimer.
  11.  * - Redistributions in binary form must reproduce the above copyright
  12.  *   notice, this list of conditions and the following disclaimer in the
  13.  *   documentation and/or other materials provided with the distribution.
  14.  * - The name of the author may not be used to endorse or promote products
  15.  *   derived from this software without specific prior written permission.
  16.  *
  17.  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
  18.  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
  19.  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
  20.  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
  21.  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
  22.  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  23.  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  24.  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  25.  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
  26.  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  27.  */
  28.  
  29. #include <putchar.h>
  30. #include <print.h>
  31. #include <synch/spinlock.h>
  32. #include <arch/arg.h>
  33. #include <arch/asm.h>
  34. #include <arch/fmath.h>
  35.  
  36. #include <arch.h>
  37.  
  38. static char digits[] = "0123456789abcdef"; /**< Hexadecimal characters */
  39. static spinlock_t printflock;              /**< printf spinlock */
  40.  
  41. #define DEFAULT_DOUBLE_PRECISION 16
  42. #define DEFAULT_DOUBLE_BUFFER_SIZE 128
  43.  
  44. void print_double(double num, __u8 modifier, __u16 precision)
  45. {
  46.     double intval,intval2;
  47.     int counter;
  48.     int exponent,exponenttmp;
  49.     unsigned char buf[DEFAULT_DOUBLE_BUFFER_SIZE];
  50.     unsigned long in1,in2; 
  51.    
  52.  
  53.     if (fmath_is_nan(num)) {
  54.         print_str("NaN");
  55.         return;
  56.     }
  57.    
  58.     if (num<0.0) {
  59.         putchar('-');
  60.         num=num*-1.0;
  61.     }
  62.  
  63.  
  64.     if (fmath_is_infinity(num)) {
  65.         print_str("Inf");
  66.         return;
  67.     }
  68.  
  69.     if ((modifier=='E')||(modifier=='e')) {
  70.         intval2=fmath_fint(fmath_get_decimal_exponent(num),&intval);
  71.         exponent=intval;
  72.         if ((intval2<0.0)) exponent--;
  73.         num = num / ((fmath_dpow(10.0,exponent)));
  74.        
  75.         print_double(num,modifier+1,precision); /* modifier+1 = E => F or e => f */
  76.         putchar(modifier);
  77.         if (exponent<0) {
  78.             putchar('-');
  79.             exponent*=-1;
  80.         }
  81.         print_number(exponent,10);
  82.         return;
  83.     }
  84.        
  85.     /* TODO: rounding constant - when we got fraction >= 0.5, we must increment last printed number */
  86.  
  87.     /*
  88.      * Here is a problem with cumulative error while printing big double values -> we will divide
  89.      * the number with a power of 10, print new number with better method for small numbers and
  90.      * then print decimal point at correct position.
  91.      */
  92.    
  93.     fmath_fint(fmath_get_decimal_exponent(num),&intval);
  94.    
  95.     exponent=(intval>0.0?intval:0);
  96.    
  97.     precision+=exponent;
  98.    
  99.     if (exponent>0) num = num / ((fmath_dpow(10.0,exponent)));
  100.        
  101.     num=fmath_fint(num,&intval);
  102.    
  103.     if (precision>0) {
  104.         counter=precision-1;
  105.         if (exponent>0) counter++;
  106.        
  107.         if (counter>=DEFAULT_DOUBLE_BUFFER_SIZE) {
  108.             counter=DEFAULT_DOUBLE_BUFFER_SIZE;
  109.         }
  110.         exponenttmp=exponent;
  111.         while(counter>=0) {
  112.             num *= 10.0;
  113.             num = fmath_fint(num,&intval2);
  114.             buf[counter--]=((int)intval2)+'0';
  115.             exponenttmp--;
  116.             if ((exponenttmp==0)&&(counter>=0)) buf[counter--]='.';
  117.         }
  118.         counter=precision;
  119.         if ((exponent==0)&&(counter<DEFAULT_DOUBLE_BUFFER_SIZE)) buf[counter]='.';
  120.         counter++; 
  121.     } else {
  122.         counter=0; 
  123.     }
  124.    
  125.     in1=intval;
  126.     if (in1==0.0) {
  127.         if (counter<DEFAULT_DOUBLE_BUFFER_SIZE) buf[counter++]='0';
  128.     } else {
  129.         while(( in1>0 )&&(counter<DEFAULT_DOUBLE_BUFFER_SIZE)) {
  130.            
  131.             in2=in1;
  132.             in1/=10;
  133.             buf[counter]=in2-in1*10 + '0';
  134.             counter++;
  135.         }
  136.     }
  137.    
  138.     counter = (counter>=DEFAULT_DOUBLE_BUFFER_SIZE?DEFAULT_DOUBLE_BUFFER_SIZE:counter);
  139.     while (counter>0) {
  140.         putchar(buf[--counter]);
  141.     }
  142.     return;
  143. }
  144.  
  145. /** Print NULL terminated string
  146.  *
  147.  * Print characters from str using putchar() until
  148.  * \\0 character is reached.
  149.  *
  150.  * @param str Characters to print.
  151.  *
  152.  */
  153. void print_str(const char *str)
  154. {
  155.     int i = 0;
  156.     char c;
  157.    
  158.     while (c = str[i++])
  159.         putchar(c);
  160. }
  161.  
  162.  
  163. /** Print hexadecimal digits
  164.  *
  165.  * Print fixed count of hexadecimal digits from
  166.  * the number num. The digits are printed in
  167.  * natural left-to-right order starting with
  168.  * the width-th digit.
  169.  *
  170.  * @param num   Number containing digits.
  171.  * @param width Count of digits to print.
  172.  *
  173.  */
  174. void print_fixed_hex(const __u64 num, const int width)
  175. {
  176.     int i;
  177.    
  178.     for (i = width*8 - 4; i >= 0; i -= 4)
  179.         putchar(digits[(num>>i) & 0xf]);
  180. }
  181.  
  182.  
  183. /** Print number in given base
  184.  *
  185.  * Print significant digits of a number in given
  186.  * base.
  187.  *
  188.  * @param num  Number to print.
  189.  * @param base Base to print the number in (should
  190.  *             be in range 2 .. 16).
  191.  *
  192.  */
  193. void print_number(const __native num, const unsigned int base)
  194. {
  195.     int val = num;
  196.     char d[sizeof(__native)*8+1];       /* this is good enough even for base == 2 */
  197.     int i = sizeof(__native)*8-1;
  198.    
  199.     do {
  200.         d[i--] = digits[val % base];
  201.     } while (val /= base);
  202.    
  203.     d[sizeof(__native)*8] = 0; 
  204.     print_str(&d[i + 1]);
  205. }
  206.  
  207.  
  208. /** General formatted text print
  209.  *
  210.  * Print text formatted according the fmt parameter
  211.  * and variant arguments. Each formatting directive
  212.  * begins with \% (percentage) character and one of the
  213.  * following character:
  214.  *
  215.  * \%    Prints the percentage character.
  216.  *
  217.  * s    The next variant argument is treated as char*
  218.  *      and printed as a NULL terminated string.
  219.  *
  220.  * c    The next variant argument is treated as a single char.
  221.  *
  222.  * p    The next variant argument is treated as a maximum
  223.  *      bit-width integer with respect to architecture
  224.  *      and printed in full hexadecimal width.
  225.  *
  226.  * P    As with 'p', but '0x' is prefixed.
  227.  *
  228.  * q    The next variant argument is treated as a 64b integer
  229.  *      and printed in full hexadecimal width.
  230.  *
  231.  * Q    As with 'q', but '0x' is prefixed.
  232.  *
  233.  * l    The next variant argument is treated as a 32b integer
  234.  *      and printed in full hexadecimal width.
  235.  *
  236.  * L    As with 'l', but '0x' is prefixed.
  237.  *
  238.  * w    The next variant argument is treated as a 16b integer
  239.  *      and printed in full hexadecimal width.
  240.  *
  241.  * W    As with 'w', but '0x' is prefixed.
  242.  *
  243.  * b    The next variant argument is treated as a 8b integer
  244.  *      and printed in full hexadecimal width.
  245.  *
  246.  * B    As with 'b', but '0x' is prefixed.
  247.  *
  248.  * d    The next variant argument is treated as integer
  249.  *      and printed in standard decimal format (only significant
  250.  *      digits).
  251.  *
  252.  * x    The next variant argument is treated as integer
  253.  *      and printed in standard hexadecimal format (only significant
  254.  *      digits).
  255.  *
  256.  * X    As with 'x', but '0x' is prefixed.
  257.  *
  258.  * .    The decimal number following period will be treated as precision
  259.  *      for printing floating point numbers. One of 'e', 'E', 'f' or 'F'
  260.  *      must follow.
  261.  *
  262.  * e    The next variant argument is treated as double precision float
  263.  *      and printed in exponent notation with only one digit before decimal point
  264.  *      in specified precision. The exponent sign is printed as 'e'.
  265.  *
  266.  * E    As with 'e', but the exponent sign is printed as 'E'.
  267.  *
  268.  * f    The next variant argument is treated as double precision float
  269.  *      and printed in decimal notation in specified precision.
  270.  *
  271.  * F    As with 'f'.
  272.  *
  273.  * All other characters from fmt except the formatting directives
  274.  * are printed in verbatim.
  275.  *
  276.  * @param fmt Formatting NULL terminated string.
  277.  */
  278. void printf(const char *fmt, ...)
  279. {
  280.     int irqpri, i = 0;
  281.     va_list ap;
  282.     char c;
  283.    
  284.     __u16 precision;
  285.    
  286.     va_start(ap, fmt);
  287.  
  288.     irqpri = interrupts_disable();
  289.     spinlock_lock(&printflock);
  290.  
  291.     while (c = fmt[i++]) {
  292.         switch (c) {
  293.  
  294.             /* control character */
  295.             case '%':
  296.             precision = DEFAULT_DOUBLE_PRECISION;
  297.             if (fmt[i]=='.') {
  298.                 precision=0;
  299.                 c=fmt[++i];
  300.                 while((c>='0')&&(c<='9')) {
  301.                     precision = precision*10 + c - '0';
  302.                     c=fmt[++i];
  303.                 }
  304.             }
  305.            
  306.             switch (c = fmt[i++]) {
  307.  
  308.                 /* percentile itself */
  309.                 case '%':
  310.                 break;
  311.  
  312.                 /*
  313.                  * String and character conversions.
  314.                  */
  315.                 case 's':
  316.                 print_str(va_arg(ap, char_ptr));
  317.                 goto loop;
  318.  
  319.                 case 'c':
  320.                 c = (char) va_arg(ap, int);
  321.                 break;
  322.  
  323.                 /*
  324.                      * Hexadecimal conversions with fixed width.
  325.                      */
  326.                 case 'P':
  327.                 print_str("0x");
  328.                 case 'p':
  329.                     print_fixed_hex(va_arg(ap, __native), sizeof(__native));
  330.                 goto loop;
  331.  
  332.                 case 'Q':
  333.                 print_str("0x");
  334.                 case 'q':
  335.                     print_fixed_hex(va_arg(ap, __u64), INT64);
  336.                 goto loop;
  337.  
  338.                 case 'L':
  339.                 print_str("0x");
  340.                 case 'l':
  341.                     print_fixed_hex(va_arg(ap, __native), INT32);
  342.                 goto loop;
  343.  
  344.                 case 'W':
  345.                 print_str("0x");
  346.                 case 'w':
  347.                     print_fixed_hex(va_arg(ap, __native), INT16);
  348.                 goto loop;
  349.  
  350.                 case 'B':
  351.                 print_str("0x");
  352.                 case 'b':
  353.                     print_fixed_hex(va_arg(ap, __native), INT8);
  354.                 goto loop;
  355.  
  356.                 /*
  357.                      * Floating point conversions.
  358.                      */
  359.                 case 'F':
  360.                     print_double(va_arg(ap, double),'F',precision);
  361.                 goto loop;
  362.                    
  363.                 case 'f':
  364.                     print_double(va_arg(ap, double),'f',precision);
  365.                 goto loop;
  366.                
  367.                 case 'E':
  368.                     print_double(va_arg(ap, double),'E',precision);
  369.                 goto loop;
  370.                 case 'e':
  371.                     print_double(va_arg(ap, double),'e',precision);
  372.                 goto loop;
  373.                
  374.                 /*
  375.                      * Decimal and hexadecimal conversions.
  376.                      */
  377.                 case 'd':
  378.                     print_number(va_arg(ap, __native), 10);
  379.                 goto loop;
  380.  
  381.                 case 'X':
  382.                 print_str("0x");
  383.                 case 'x':
  384.                     print_number(va_arg(ap, __native), 16);
  385.                 goto loop;
  386.        
  387.                 /*
  388.                  * Bad formatting.
  389.                  */
  390.                 default:
  391.                 goto out;
  392.             }
  393.  
  394.             default: putchar(c);
  395.         }
  396.    
  397. loop:
  398.         ;
  399.     }
  400.  
  401. out:
  402.     spinlock_unlock(&printflock);
  403.     interrupts_restore(irqpri);
  404.    
  405.     va_end(ap);
  406. }
  407.