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chprintf.c
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chprintf.c
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/*
ChibiOS - Copyright (C) 2006..2016 Giovanni Di Sirio
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
/*
Concepts and parts of this file have been contributed by Fabio Utzig,
chvprintf() added by Brent Roman.
*/
/**
* @file chprintf.c
* @brief Mini printf-like functionality.
*
* @addtogroup chprintf
* @{
*/
#include "hal.h"
#include "chprintf.h"
//#include "memstreams.h"
#include <math.h>
#pragma GCC optimize ("Og")
// Enable [flags], support:
// ' ' Prepends a space for positive signed-numeric types. positive = ' ', negative = '-'. This flag is ignored if the + flag exists.
#define CHPRINTF_USE_SPACE_FLAG
// Force putting trailing zeros on float value
#define CHPRINTF_FORCE_TRAILING_ZEROS
#define MAX_FILLER 11
#define FLOAT_PRECISION 9
static const uint32_t pow10[FLOAT_PRECISION+1] = {
1, 10, 100, 1000, 10000, 100000, 1000000, 10000000, 100000000, 1000000000
};
// Prefixes for values bigger then 1000.0
// 1 1e3, 1e6, 1e9, 1e12, 1e15, 1e18, 1e21, 1e24
static const char bigPrefix[] = {' ', 'k', 'M', 'G', 'T', 'P', 'E', 'Z', 'Y', 0};
// Prefixes for values less then 1.0
// 1e-3, 1e-6, 1e-9, 1e-12, 1e-15, 1e-18, 1e-21, 1e-24
static const char smallPrefix[] = {'m', 0x1d, 'n', 'p', 'f', 'a', 'z', 'y', 0};
#ifdef TINYSA4
typedef uint64_t ulong_t;
typedef int64_t long_t;
#else
typedef uint32_t ulong_t;
typedef int32_t long_t;
#endif
static char *long_to_string_with_divisor(char *p,
long_t num,
uint32_t radix,
uint32_t precision) {
char *q = p + MAX_FILLER;
char *b = q;
// convert to string from end buffer to begin
do {
uint8_t c = num % radix;
num /= radix;
*--q = c + ((c > 9) ? ('A'-10) : '0');
}while((precision && --precision) || num);
// copy string at begin
int i = (int)(b - q);
do
*p++ = *q++;
while (--i);
return p;
}
// default prescision = 13
// g.mmm kkk hhh
#define MAX_FREQ_PRESCISION 15
#define FREQ_PSET 1
#define FREQ_NO_SPACE 2
#define FREQ_PREFIX_SPACE 4
static char *
ulong_freq(char *p, ulong_t freq, uint32_t width, uint32_t precision)
{
uint8_t flag = FREQ_PSET;
flag|= precision == 0 ? FREQ_PREFIX_SPACE : FREQ_NO_SPACE;
if (/* precision == 0 || */ precision > MAX_FREQ_PRESCISION)
precision = MAX_FREQ_PRESCISION;
char *q = p + MAX_FREQ_PRESCISION;
char *b = q;
// Prefix counter
uint32_t s = 0;
// Set format (every 3 digits add ' ' up to GHz)
uint32_t format = 0b00100100100;
do {
#if 1
uint8_t c = freq % 10;
freq/= 10;
#else
// Fast and compact division uint32_t on 10, using shifts, result:
// c = freq % 10
// freq = freq / 10;
long_t c = freq;
freq >>= 1;
freq += freq >> 1;
freq += freq >> 4;
freq += freq >> 8;
freq += freq >> 16; // freq = 858993459*freq/1073741824 = freq *
// 0,799999999813735485076904296875
freq >>= 3; // freq/=8; freq = freq * 0,09999999997671693563461303710938
c -= freq * 10; // freq*10 = (freq*4+freq)*2 = ((freq<<2)+freq)<<1
while (c >= 10) {
freq++;
c -= 10;
}
#endif
*--q = c + '0';
if (freq == 0) break;
// Add spaces, calculate prefix
if (format & 1) {
*--q = ' ';
s++;
}
format >>= 1;
} while (1);
s = bigPrefix[s];
// Get string size
uint32_t i = (b - q);
if (width > 0 && i>width)
i=width;
// copy string
// Replace first ' ' by '.', remove ' ' if size too big
do {
char c = *q++;
// replace first ' ' on '.'
if (c == ' ') {
if (flag & FREQ_PSET) {
c = '.';
flag &= ~FREQ_PSET;
} else if (flag & FREQ_NO_SPACE) {
c = *q++; --i;
}
}
*p++ = c;
if (!(flag & FREQ_PSET) && precision-- == 0)
break;
} while (--i);
if (p[-1] == '.') // No '.' at end
p--;
// Put pref (amd space before it if need)
if (flag & FREQ_PREFIX_SPACE && s != ' ')
*p++ = ' ';
*p++ = s;
return p;
}
//#if CHPRINTF_USE_FLOAT
static char *ftoa(char *p, float num, uint32_t precision) {
// Check precision limit
if (precision > FLOAT_PRECISION)
precision = FLOAT_PRECISION;
uint32_t multi = pow10[precision];
uint32_t l = num;
// Round value
uint32_t k = ((num-l)*multi+0.5);
// Fix rounding error if get
if (k>=multi){k-=multi;l++;}
p = long_to_string_with_divisor(p, l, 10, 0);
if (precision) {
*p++ = '.';
p=long_to_string_with_divisor(p, k, 10, precision);
#ifndef CHPRINTF_FORCE_TRAILING_ZEROS
// remove zeros at end
while (p[-1]=='0') p--;
if (p[-1]=='.') p--;
#endif
}
return p;
}
static char *ftoaS(char *p, float num, int precision) {
char prefix=0;
const char *ptr;
if (num > 1000.0){
for (ptr = bigPrefix+1; *ptr && num > 1000.0; num/=1000, ptr++)
;
prefix = ptr[-1];
}
else if (num < 1){
for (ptr = smallPrefix; *ptr && num < 1.0; num*=1000, ptr++)
;
prefix = num > 1e-3 ? ptr[-1] : 0;
}
if (prefix)
precision--;
// Auto set precision
uint32_t l = num;
if (l >= 100)
precision-=2;
else if (l >= 10)
precision-=1;
if (precision<0)
precision=0;
p=ftoa(p, num, precision);
// remove zeros at end
if (precision){
while (p[-1]=='0') p--;
if (p[-1]=='.') p--;
}
if (prefix)
*p++ = prefix;
return p;
}
static char *etoa(char *p, float num, uint32_t precision) {
int exp = 0;
if (num == 0) { *p++ = '0'; return p; }
while (num < 10) { num *= 10.0; exp--; }
while (num > 10) { num /= 10.0; exp++; }
*p++ = ((int)num) + '0'; num *=10.0;
*p++ = '.';
if (precision == 0) precision = 6;
while (precision--) { *p++ = (((int)num) % 10) + '0'; num *=10.0; }
*p++ = 'e';
if (exp < 0) { *p++ = '-'; exp = -exp;} else *p++ = '+';
*p++ = (((int)exp) / 10 ) + '0';
*p++ = (((int)exp) % 10 ) + '0';
return p;
}
//#endif
/**
* @brief System formatted output function.
* @details This function implements a minimal @p vprintf()-like functionality
* with output on a @p BaseSequentialStream.
* The general parameters format is: %[-][width|*][.precision|*][l|L]p.
* The following parameter types (p) are supported:
* - <b>x</b> hexadecimal integer.
* - <b>X</b> hexadecimal long.
* - <b>o</b> octal integer.
* - <b>O</b> octal long.
* - <b>d</b> decimal signed integer.
* - <b>D</b> decimal signed long.
* - <b>u</b> decimal unsigned integer.
* - <b>U</b> decimal unsigned long.
* - <b>c</b> character.
* - <b>s</b> string.
* .
*
* @param[in] chp pointer to a @p BaseSequentialStream implementing object
* @param[in] fmt formatting string
* @param[in] ap list of parameters
* @return The number of bytes that would have been
* written to @p chp if no stream error occurs
*
* @api
*/
#define IS_LONG 1
#define LEFT_ALIGN 2
#define POSITIVE 4
#define NEGATIVE 8
#define PAD_ZERO 16
#define PLUS_SPACE 32
#define DEFAULT_PRESCISION 64
#define _32_BIT_FLOAT 128
int chvprintf(BaseSequentialStream *chp, const char *fmt, va_list ap) {
char *p, *s, c, filler=' ';
int precision, width;
int n = 0;
uint32_t state;
volatile union {
uint32_t u;
int32_t l;
float f;
long_t x;
ulong_t ux;
}value;
#if CHPRINTF_USE_FLOAT
char tmpbuf[2*MAX_FILLER + 1];
#else
char tmpbuf[MAX_FREQ_PRESCISION + 1];
#endif
while (true) {
c = *fmt++;
if (c == 0)
return n;
if (c != '%') {
streamPut(chp, (uint8_t)c);
n++;
continue;
}
// Parse %[flags][width][.precision][length]type
p = tmpbuf;
s = tmpbuf;
state = 0;
width = 0;
precision = 0;
// Get [flags], support:
// '-' Left-align the output of this placeholder. (The default is to right-align the output.)
// '+' Prepends a plus for positive signed-numeric types. positive = '+', negative = '-'.
// ' ' Prepends a space for positive signed-numeric types. positive = ' ', negative = '-'. This flag is ignored if the + flag exists.
// '0' When the 'width' option is specified, prepends zeros for numeric types. (The default prepends spaces.)
while (true){
if (*fmt == '-')
state|=LEFT_ALIGN;
else if (*fmt == '+')
state|=POSITIVE;
else if (*fmt == '0')
state|=PAD_ZERO;
#ifdef CHPRINTF_USE_SPACE_FLAG
else if (*fmt == ' ')
state|=PLUS_SPACE;
#endif
else if (*fmt == 'b')
state|=_32_BIT_FLOAT;
else
break;
fmt++;
}
// Get [width] - The Width field specifies a minimum number of characters to output
// if set *, get width as argument
while (true) {
c = *fmt++;
if (c >= '0' && c <= '9')
c -= '0';
else if (c == '*')
c = va_arg(ap, int);
else
break;
width = width * 10 + c;
}
// Get [.precision]
if (c == '.') {
while (true) {
c = *fmt++;
if (c >= '0' && c <= '9')
c -= '0';
else if (c == '*')
c = va_arg(ap, int);
else
break;
precision = precision * 10 + c;
}
}
else
state|=DEFAULT_PRESCISION;
//Get [length]
if (c == 'l' || c == 'L') {
#ifdef TINYSA4
state|=IS_LONG; // Ignore Long
#endif
if (*fmt)
c = *fmt++;
}
#ifdef TINYSA4
else if ((c >= 'A') && (c <= 'Z'))
state|=IS_LONG;
#endif
// Parse type
switch (c) {
case 'c':
state&=~PAD_ZERO;
c = va_arg(ap, int);
if (c) *p++ = c;
break;
case 's':
state&=~PAD_ZERO;
if ((s = va_arg(ap, char *)) == 0)
s = "(null)";
if (state&DEFAULT_PRESCISION)
precision = 32767;
for (p = s; *p && (--precision >= 0); p++)
;
break;
case 'D':
case 'd':
case 'I':
case 'i':
#ifdef TINYSA4
if (state & IS_LONG)
value.x = va_arg(ap, int64_t);
else
#endif
value.x = va_arg(ap, int32_t);
if (value.x < 0) {
state|=NEGATIVE;
*p++ = '-';
value.x = -value.x;
}
else if (state & POSITIVE)
*p++ = '+';
#ifdef CHPRINTF_USE_SPACE_FLAG
else if (state & PLUS_SPACE)
*p++ = ' ';
#endif
p = long_to_string_with_divisor(p, value.x, 10, 0);
break;
case 'q':
case 'Q':
#ifdef TINYSA4
if (state & IS_LONG)
value.ux = va_arg(ap, uint64_t);
else
#endif
value.ux = va_arg(ap, uint32_t);
if (state&DEFAULT_PRESCISION)
precision = MAX_FREQ_PRESCISION;
p=ulong_freq(p, value.ux, width, precision);
break;
//#if CHPRINTF_USE_FLOAT
case 'F':
case 'f':
case 'e':
if (state & _32_BIT_FLOAT)
value.u = va_arg(ap, uint32_t);
else
value.f = va_arg(ap, double);
if (value.f < 0) {
state|=NEGATIVE;
*p++ = '-';
value.f = -value.f;
}
else if (state & POSITIVE)
*p++ = '+';
#ifdef CHPRINTF_USE_SPACE_FLAG
else if (state & PLUS_SPACE)
*p++ = ' ';
#endif
if (value.f == INFINITY){
*p++ = 0x19;
break;
}
p = (c=='F') ? ftoaS(p, value.f, precision) : ((c=='e') ? etoa(p, value.f, precision) : ftoa(p, value.f, state&DEFAULT_PRESCISION ? FLOAT_PRECISION : precision));
break;
//#endif
case 'X':
case 'x':
c = 16;
goto unsigned_common;
case 'U':
case 'u':
c = 10;
goto unsigned_common;
case 'O':
case 'o':
c = 8;
unsigned_common:
#ifdef TINYSA4
if (state & IS_LONG)
value.ux = va_arg(ap, uint64_t);
else
#endif
value.ux = va_arg(ap, uint32_t);
p = long_to_string_with_divisor(p, value.ux, c, 0);
break;
default:
*p++ = c;
break;
}
// Now need print buffer s[{sign}XXXXXXXXXXXX]p and align it on width
// Check filler width (if buffer less then width) and prepare filler if need fill
if ((width -=(int)(p - s)) < 0)
width = 0;
else
filler = (state&PAD_ZERO) ? '0' : ' ';
// if left align, put sign digit, and fill
// [{sign}ffffffXXXXXXXXXXXX]
if (!(state&LEFT_ALIGN)) {
// Put '+' or '-' or ' ' first if need
if ((state&(NEGATIVE|POSITIVE|PLUS_SPACE)) && (state&PAD_ZERO)) {
streamPut(chp, (uint8_t)*s++);
n++;
}
// fill from left
while (width){
streamPut(chp, (uint8_t)filler);
n++;
width--;
}
}
// put data
while (s < p) {
streamPut(chp, (uint8_t)*s++);
n++;
}
// Put filler from right (if need)
while (width) {
streamPut(chp, (uint8_t)filler);
n++;
width--;
}
}
}
/**
* @brief System formatted output function.
* @details This function implements a minimal @p printf() like functionality
* with output on a @p BaseSequentialStream.
* The general parameters format is: %[-][width|*][.precision|*][l|L]p.
* The following parameter types (p) are supported:
* - <b>x</b> hexadecimal integer.
* - <b>X</b> hexadecimal long.
* - <b>o</b> octal integer.
* - <b>O</b> octal long.
* - <b>d</b> decimal signed integer.
* - <b>D</b> decimal signed long.
* - <b>u</b> decimal unsigned integer.
* - <b>U</b> decimal unsigned long.
* - <b>c</b> character.
* - <b>s</b> string.
* .
*
* @param[in] chp pointer to a @p BaseSequentialStream implementing object
* @param[in] fmt formatting string
*
* @api
*/
#if 0
int chprintf(BaseSequentialStream *chp, const char *fmt, ...) {
va_list ap;
int formatted_bytes;
va_start(ap, fmt);
formatted_bytes = chvprintf(chp, fmt, ap);
va_end(ap);
return formatted_bytes;
}
#endif
/**
* @brief System formatted output function.
* @details This function implements a minimal @p vprintf()-like functionality
* with output on a @p BaseSequentialStream.
* The general parameters format is: %[-][width|*][.precision|*][l|L]p.
* The following parameter types (p) are supported:
* - <b>x</b> hexadecimal integer.
* - <b>X</b> hexadecimal long.
* - <b>o</b> octal integer.
* - <b>O</b> octal long.
* - <b>d</b> decimal signed integer.
* - <b>D</b> decimal signed long.
* - <b>u</b> decimal unsigned integer.
* - <b>U</b> decimal unsigned long.
* - <b>c</b> character.
* - <b>s</b> string.
* .
* @post @p str is NUL-terminated, unless @p size is 0.
*
* @param[in] str pointer to a buffer
* @param[in] size maximum size of the buffer
* @param[in] fmt formatting string
* @return The number of characters (excluding the
* terminating NUL byte) that would have been
* stored in @p str if there was room.
*
* @api
*/
#if 0
int chsnprintf(char *str, size_t size, const char *fmt, ...) {
va_list ap;
MemoryStream ms;
BaseSequentialStream *chp;
size_t size_wo_nul;
int retval;
if (size > 0)
size_wo_nul = size - 1;
else
size_wo_nul = 0;
/* Memory stream object to be used as a string writer, reserving one
byte for the final zero.*/
msObjectInit(&ms, (uint8_t *)str, size_wo_nul, 0);
/* Performing the print operation using the common code.*/
chp = (BaseSequentialStream *)(void *)&ms;
va_start(ap, fmt);
retval = chvprintf(chp, fmt, ap);
va_end(ap);
/* Terminate with a zero, unless size==0.*/
if (ms.eos < size)
str[ms.eos] = 0;
/* Return number of bytes that would have been written.*/
return retval;
}
#endif
//
// Small memory stream object, only put function
//
struct printStreamVMT {
_base_sequential_stream_methods
};
typedef struct {
const struct printStreamVMT *vmt;
uint8_t *buffer;
uint16_t size;
} printStream;
static msg_t put(void *ip, uint8_t b) {
printStream *ps = ip;
if (ps->size > 1){
*(ps->buffer++) = b;
ps->size--;
}
return MSG_OK;
}
static const struct printStreamVMT vmt = {NULL, NULL, put, NULL};
void printObjectInit(printStream *ps, int size, uint8_t *buffer){
ps->vmt = &vmt;
ps->buffer = buffer;
ps->size = size;
}
// Simple print in buffer function
int plot_printf(char *str, int size, const char *fmt, ...) {
va_list ap;
printStream ps;
int retval;
if (size <= 0) return 0;
// Init small memory stream for print
printObjectInit(&ps, size, (uint8_t *)str);
// Performing the print operation using the common code.
va_start(ap, fmt);
retval = chvprintf((BaseSequentialStream *)(void *)&ps, fmt, ap);
va_end(ap);
*(ps.buffer)=0;
if (retval > size-1) retval = size-1;
// Return number of bytes that would have been written.
return retval;
}
/** @} */