curl/lib/mprintf.c

1099 lines
28 KiB
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/***************************************************************************
* _ _ ____ _
* Project ___| | | | _ \| |
* / __| | | | |_) | |
* | (__| |_| | _ <| |___
* \___|\___/|_| \_\_____|
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*
* Copyright (C) 1999 - 2013, Daniel Stenberg, <daniel@haxx.se>, et al.
*
* This software is licensed as described in the file COPYING, which
* you should have received as part of this distribution. The terms
* are also available at http://curl.haxx.se/docs/copyright.html.
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*
* You may opt to use, copy, modify, merge, publish, distribute and/or sell
* copies of the Software, and permit persons to whom the Software is
* furnished to do so, under the terms of the COPYING file.
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*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
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*
*
* Purpose:
* A merge of Bjorn Reese's format() function and Daniel's dsprintf()
* 1.0. A full blooded printf() clone with full support for <num>$
* everywhere (parameters, widths and precisions) including variabled
* sized parameters (like doubles, long longs, long doubles and even
* void * in 64-bit architectures).
*
* Current restrictions:
* - Max 128 parameters
* - No 'long double' support.
*
* If you ever want truly portable and good *printf() clones, the project that
* took on from here is named 'Trio' and you find more details on the trio web
* page at http://daniel.haxx.se/trio/
*/
build: fix circular header inclusion with other packages This commit renames lib/setup.h to lib/curl_setup.h and renames lib/setup_once.h to lib/curl_setup_once.h. Removes the need and usage of a header inclusion guard foreign to libcurl. [1] Removes the need and presence of an alarming notice we carried in old setup_once.h [2] ---------------------------------------- 1 - lib/setup_once.h used __SETUP_ONCE_H macro as header inclusion guard up to commit ec691ca3 which changed this to HEADER_CURL_SETUP_ONCE_H, this single inclusion guard is enough to ensure that inclusion of lib/setup_once.h done from lib/setup.h is only done once. Additionally lib/setup.h has always used __SETUP_ONCE_H macro to protect inclusion of setup_once.h even after commit ec691ca3, this was to avoid a circular header inclusion triggered when building a c-ares enabled version with c-ares sources available which also has a setup_once.h header. Commit ec691ca3 exposes the real nature of __SETUP_ONCE_H usage in lib/setup.h, it is a header inclusion guard foreign to libcurl belonging to c-ares's setup_once.h The renaming this commit does, fixes the circular header inclusion, and as such removes the need and usage of a header inclusion guard foreign to libcurl. Macro __SETUP_ONCE_H no longer used in libcurl. 2 - Due to the circular interdependency of old lib/setup_once.h and the c-ares setup_once.h header, old file lib/setup_once.h has carried back from 2006 up to now days an alarming and prominent notice about the need of keeping libcurl's and c-ares's setup_once.h in sync. Given that this commit fixes the circular interdependency, the need and presence of mentioned notice is removed. All mentioned interdependencies come back from now old days when the c-ares project lived inside a curl subdirectory. This commit removes last traces of such fact.
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#include "curl_setup.h"
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#if defined(DJGPP) && (DJGPP_MINOR < 4)
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#undef _MPRINTF_REPLACE /* don't use x_was_used() here */
#endif
#include <curl/mprintf.h>
#include "curl_memory.h"
/* The last #include file should be: */
#include "memdebug.h"
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#ifndef SIZEOF_LONG_DOUBLE
#define SIZEOF_LONG_DOUBLE 0
#endif
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/*
* If SIZEOF_SIZE_T has not been defined, default to the size of long.
*/
#ifndef SIZEOF_SIZE_T
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# define SIZEOF_SIZE_T CURL_SIZEOF_LONG
#endif
#ifdef HAVE_LONGLONG
# define LONG_LONG_TYPE long long
# define HAVE_LONG_LONG_TYPE
#else
# if defined(_MSC_VER) && (_MSC_VER >= 900) && (_INTEGRAL_MAX_BITS >= 64)
# define LONG_LONG_TYPE __int64
# define HAVE_LONG_LONG_TYPE
# else
# undef LONG_LONG_TYPE
# undef HAVE_LONG_LONG_TYPE
# endif
#endif
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/*
* Max integer data types that mprintf.c is capable
*/
#ifdef HAVE_LONG_LONG_TYPE
# define mp_intmax_t LONG_LONG_TYPE
# define mp_uintmax_t unsigned LONG_LONG_TYPE
#else
# define mp_intmax_t long
# define mp_uintmax_t unsigned long
#endif
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#define BUFFSIZE 256 /* buffer for long-to-str and float-to-str calcs */
#define MAX_PARAMETERS 128 /* lame static limit */
#ifdef __AMIGA__
# undef FORMAT_INT
#endif
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/* Lower-case digits. */
static const char lower_digits[] = "0123456789abcdefghijklmnopqrstuvwxyz";
/* Upper-case digits. */
static const char upper_digits[] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ";
#define OUTCHAR(x) \
do{ \
if(stream((unsigned char)(x), (FILE *)data) != -1) \
done++; \
else \
return done; /* return immediately on failure */ \
} WHILE_FALSE
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/* Data type to read from the arglist */
typedef enum {
FORMAT_UNKNOWN = 0,
FORMAT_STRING,
FORMAT_PTR,
FORMAT_INT,
FORMAT_INTPTR,
FORMAT_LONG,
FORMAT_LONGLONG,
FORMAT_DOUBLE,
FORMAT_LONGDOUBLE,
FORMAT_WIDTH /* For internal use */
} FormatType;
/* conversion and display flags */
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enum {
FLAGS_NEW = 0,
FLAGS_SPACE = 1<<0,
FLAGS_SHOWSIGN = 1<<1,
FLAGS_LEFT = 1<<2,
FLAGS_ALT = 1<<3,
FLAGS_SHORT = 1<<4,
FLAGS_LONG = 1<<5,
FLAGS_LONGLONG = 1<<6,
FLAGS_LONGDOUBLE = 1<<7,
FLAGS_PAD_NIL = 1<<8,
FLAGS_UNSIGNED = 1<<9,
FLAGS_OCTAL = 1<<10,
FLAGS_HEX = 1<<11,
FLAGS_UPPER = 1<<12,
FLAGS_WIDTH = 1<<13, /* '*' or '*<num>$' used */
FLAGS_WIDTHPARAM = 1<<14, /* width PARAMETER was specified */
FLAGS_PREC = 1<<15, /* precision was specified */
FLAGS_PRECPARAM = 1<<16, /* precision PARAMETER was specified */
FLAGS_CHAR = 1<<17, /* %c story */
FLAGS_FLOATE = 1<<18, /* %e or %E */
FLAGS_FLOATG = 1<<19 /* %g or %G */
};
typedef struct {
FormatType type;
int flags;
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long width; /* width OR width parameter number */
long precision; /* precision OR precision parameter number */
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union {
char *str;
void *ptr;
union {
mp_intmax_t as_signed;
mp_uintmax_t as_unsigned;
} num;
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double dnum;
} data;
} va_stack_t;
struct nsprintf {
char *buffer;
size_t length;
size_t max;
};
struct asprintf {
char *buffer; /* allocated buffer */
size_t len; /* length of string */
size_t alloc; /* length of alloc */
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int fail; /* (!= 0) if an alloc has failed and thus
the output is not the complete data */
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};
static long dprintf_DollarString(char *input, char **end)
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{
int number=0;
while(ISDIGIT(*input)) {
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number *= 10;
number += *input-'0';
input++;
}
if(number && ('$'==*input++)) {
*end = input;
return number;
}
return 0;
}
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static int dprintf_IsQualifierNoDollar(char c)
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{
switch (c) {
case '-': case '+': case ' ': case '#': case '.':
case '0': case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
case 'h': case 'l': case 'L': case 'z': case 'q':
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case '*': case 'O':
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return 1; /* true */
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default:
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return 0; /* false */
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}
}
/******************************************************************
*
* Pass 1:
* Create an index with the type of each parameter entry and its
* value (may vary in size)
*
******************************************************************/
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static long dprintf_Pass1(const char *format, va_stack_t *vto, char **endpos,
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va_list arglist)
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{
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char *fmt = (char *)format;
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int param_num = 0;
long this_param;
long width;
long precision;
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int flags;
long max_param=0;
long i;
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while(*fmt) {
if(*fmt++ == '%') {
if(*fmt == '%') {
fmt++;
continue; /* while */
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}
flags = FLAGS_NEW;
/* Handle the positional case (N$) */
param_num++;
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this_param = dprintf_DollarString(fmt, &fmt);
if(0 == this_param)
/* we got no positional, get the next counter */
this_param = param_num;
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if(this_param > max_param)
max_param = this_param;
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/*
* The parameter with number 'i' should be used. Next, we need
* to get SIZE and TYPE of the parameter. Add the information
* to our array.
*/
width = 0;
precision = 0;
/* Handle the flags */
while(dprintf_IsQualifierNoDollar(*fmt)) {
switch (*fmt++) {
case ' ':
flags |= FLAGS_SPACE;
break;
case '+':
flags |= FLAGS_SHOWSIGN;
break;
case '-':
flags |= FLAGS_LEFT;
flags &= ~FLAGS_PAD_NIL;
break;
case '#':
flags |= FLAGS_ALT;
break;
case '.':
flags |= FLAGS_PREC;
if('*' == *fmt) {
/* The precision is picked from a specified parameter */
flags |= FLAGS_PRECPARAM;
fmt++;
param_num++;
i = dprintf_DollarString(fmt, &fmt);
if(i)
precision = i;
else
precision = param_num;
if(precision > max_param)
max_param = precision;
}
else {
flags |= FLAGS_PREC;
precision = strtol(fmt, &fmt, 10);
}
break;
case 'h':
flags |= FLAGS_SHORT;
break;
case 'l':
if(flags & FLAGS_LONG)
flags |= FLAGS_LONGLONG;
else
flags |= FLAGS_LONG;
break;
case 'L':
flags |= FLAGS_LONGDOUBLE;
break;
case 'q':
flags |= FLAGS_LONGLONG;
break;
case 'z':
/* the code below generates a warning if -Wunreachable-code is
used */
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#if (SIZEOF_SIZE_T > CURL_SIZEOF_LONG)
flags |= FLAGS_LONGLONG;
#else
flags |= FLAGS_LONG;
#endif
break;
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case 'O':
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#if (CURL_SIZEOF_CURL_OFF_T > CURL_SIZEOF_LONG)
flags |= FLAGS_LONGLONG;
#else
flags |= FLAGS_LONG;
#endif
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break;
case '0':
if(!(flags & FLAGS_LEFT))
flags |= FLAGS_PAD_NIL;
/* FALLTHROUGH */
case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
flags |= FLAGS_WIDTH;
width = strtol(fmt-1, &fmt, 10);
break;
case '*': /* Special case */
flags |= FLAGS_WIDTHPARAM;
param_num++;
i = dprintf_DollarString(fmt, &fmt);
if(i)
width = i;
else
width = param_num;
if(width > max_param)
max_param=width;
break;
default:
break;
}
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} /* switch */
/* Handle the specifier */
i = this_param - 1;
switch (*fmt) {
case 'S':
flags |= FLAGS_ALT;
/* FALLTHROUGH */
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case 's':
vto[i].type = FORMAT_STRING;
break;
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case 'n':
vto[i].type = FORMAT_INTPTR;
break;
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case 'p':
vto[i].type = FORMAT_PTR;
break;
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case 'd': case 'i':
vto[i].type = FORMAT_INT;
break;
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case 'u':
vto[i].type = FORMAT_INT;
flags |= FLAGS_UNSIGNED;
break;
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case 'o':
vto[i].type = FORMAT_INT;
flags |= FLAGS_OCTAL;
break;
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case 'x':
vto[i].type = FORMAT_INT;
flags |= FLAGS_HEX;
break;
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case 'X':
vto[i].type = FORMAT_INT;
flags |= FLAGS_HEX|FLAGS_UPPER;
break;
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case 'c':
vto[i].type = FORMAT_INT;
flags |= FLAGS_CHAR;
break;
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case 'f':
vto[i].type = FORMAT_DOUBLE;
break;
case 'e':
vto[i].type = FORMAT_DOUBLE;
flags |= FLAGS_FLOATE;
break;
case 'E':
vto[i].type = FORMAT_DOUBLE;
flags |= FLAGS_FLOATE|FLAGS_UPPER;
break;
case 'g':
vto[i].type = FORMAT_DOUBLE;
flags |= FLAGS_FLOATG;
break;
case 'G':
vto[i].type = FORMAT_DOUBLE;
flags |= FLAGS_FLOATG|FLAGS_UPPER;
break;
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default:
vto[i].type = FORMAT_UNKNOWN;
break;
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} /* switch */
vto[i].flags = flags;
vto[i].width = width;
vto[i].precision = precision;
if(flags & FLAGS_WIDTHPARAM) {
/* we have the width specified from a parameter, so we make that
parameter's info setup properly */
vto[i].width = width - 1;
i = width - 1;
vto[i].type = FORMAT_WIDTH;
vto[i].flags = FLAGS_NEW;
vto[i].precision = vto[i].width = 0; /* can't use width or precision
of width! */
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}
if(flags & FLAGS_PRECPARAM) {
/* we have the precision specified from a parameter, so we make that
parameter's info setup properly */
vto[i].precision = precision - 1;
i = precision - 1;
vto[i].type = FORMAT_WIDTH;
vto[i].flags = FLAGS_NEW;
vto[i].precision = vto[i].width = 0; /* can't use width or precision
of width! */
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}
*endpos++ = fmt + 1; /* end of this sequence */
}
}
/* Read the arg list parameters into our data list */
for(i=0; i<max_param; i++) {
if((i + 1 < max_param) && (vto[i + 1].type == FORMAT_WIDTH)) {
/* Width/precision arguments must be read before the main argument
* they are attached to
*/
vto[i + 1].data.num.as_signed = (mp_intmax_t)va_arg(arglist, int);
}
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switch (vto[i].type) {
case FORMAT_STRING:
vto[i].data.str = va_arg(arglist, char *);
break;
case FORMAT_INTPTR:
case FORMAT_UNKNOWN:
case FORMAT_PTR:
vto[i].data.ptr = va_arg(arglist, void *);
break;
case FORMAT_INT:
#ifdef HAVE_LONG_LONG_TYPE
if((vto[i].flags & FLAGS_LONGLONG) && (vto[i].flags & FLAGS_UNSIGNED))
vto[i].data.num.as_unsigned =
(mp_uintmax_t)va_arg(arglist, mp_uintmax_t);
else if(vto[i].flags & FLAGS_LONGLONG)
vto[i].data.num.as_signed =
(mp_intmax_t)va_arg(arglist, mp_intmax_t);
else
#endif
{
if((vto[i].flags & FLAGS_LONG) && (vto[i].flags & FLAGS_UNSIGNED))
vto[i].data.num.as_unsigned =
(mp_uintmax_t)va_arg(arglist, unsigned long);
else if(vto[i].flags & FLAGS_LONG)
vto[i].data.num.as_signed =
(mp_intmax_t)va_arg(arglist, long);
else if(vto[i].flags & FLAGS_UNSIGNED)
vto[i].data.num.as_unsigned =
(mp_uintmax_t)va_arg(arglist, unsigned int);
else
vto[i].data.num.as_signed =
(mp_intmax_t)va_arg(arglist, int);
}
break;
case FORMAT_DOUBLE:
vto[i].data.dnum = va_arg(arglist, double);
break;
case FORMAT_WIDTH:
/* Argument has been read. Silently convert it into an integer
* for later use
*/
vto[i].type = FORMAT_INT;
break;
default:
break;
}
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}
return max_param;
}
static int dprintf_formatf(
void *data, /* untouched by format(), just sent to the stream() function in
the second argument */
/* function pointer called for each output character */
int (*stream)(int, FILE *),
const char *format, /* %-formatted string */
va_list ap_save) /* list of parameters */
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{
/* Base-36 digits for numbers. */
const char *digits = lower_digits;
/* Pointer into the format string. */
char *f;
/* Number of characters written. */
int done = 0;
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long param; /* current parameter to read */
long param_num=0; /* parameter counter */
va_stack_t vto[MAX_PARAMETERS];
char *endpos[MAX_PARAMETERS];
char **end;
char work[BUFFSIZE];
va_stack_t *p;
/* Do the actual %-code parsing */
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dprintf_Pass1(format, vto, endpos, ap_save);
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end = &endpos[0]; /* the initial end-position from the list dprintf_Pass1()
created for us */
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f = (char *)format;
while(*f != '\0') {
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/* Format spec modifiers. */
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int is_alt;
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/* Width of a field. */
long width;
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/* Precision of a field. */
long prec;
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/* Decimal integer is negative. */
int is_neg;
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/* Base of a number to be written. */
long base;
/* Integral values to be written. */
mp_uintmax_t num;
/* Used to convert negative in positive. */
mp_intmax_t signed_num;
if(*f != '%') {
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/* This isn't a format spec, so write everything out until the next one
OR end of string is reached. */
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do {
OUTCHAR(*f);
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} while(*++f && ('%' != *f));
continue;
}
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++f;
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/* Check for "%%". Note that although the ANSI standard lists
'%' as a conversion specifier, it says "The complete format
specification shall be `%%'," so we can avoid all the width
and precision processing. */
if(*f == '%') {
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++f;
OUTCHAR('%');
continue;
}
/* If this is a positional parameter, the position must follow immediately
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after the %, thus create a %<num>$ sequence */
param=dprintf_DollarString(f, &f);
if(!param)
param = param_num;
else
--param;
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param_num++; /* increase this always to allow "%2$s %1$s %s" and then the
third %s will pick the 3rd argument */
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p = &vto[param];
/* pick up the specified width */
if(p->flags & FLAGS_WIDTHPARAM)
width = (long)vto[p->width].data.num.as_signed;
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else
width = p->width;
/* pick up the specified precision */
if(p->flags & FLAGS_PRECPARAM) {
prec = (long)vto[p->precision].data.num.as_signed;
param_num++; /* since the precision is extraced from a parameter, we
must skip that to get to the next one properly */
}
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else if(p->flags & FLAGS_PREC)
prec = p->precision;
else
prec = -1;
is_alt = (p->flags & FLAGS_ALT) ? 1 : 0;
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switch (p->type) {
case FORMAT_INT:
num = p->data.num.as_unsigned;
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if(p->flags & FLAGS_CHAR) {
/* Character. */
if(!(p->flags & FLAGS_LEFT))
while(--width > 0)
OUTCHAR(' ');
OUTCHAR((char) num);
if(p->flags & FLAGS_LEFT)
while(--width > 0)
OUTCHAR(' ');
break;
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}
if(p->flags & FLAGS_UNSIGNED) {
/* Decimal unsigned integer. */
base = 10;
goto unsigned_number;
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}
if(p->flags & FLAGS_OCTAL) {
/* Octal unsigned integer. */
base = 8;
goto unsigned_number;
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}
if(p->flags & FLAGS_HEX) {
/* Hexadecimal unsigned integer. */
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digits = (p->flags & FLAGS_UPPER)? upper_digits : lower_digits;
base = 16;
goto unsigned_number;
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}
/* Decimal integer. */
base = 10;
is_neg = (p->data.num.as_signed < (mp_intmax_t)0) ? 1 : 0;
if(is_neg) {
/* signed_num might fail to hold absolute negative minimum by 1 */
signed_num = p->data.num.as_signed + (mp_intmax_t)1;
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signed_num = -signed_num;
num = (mp_uintmax_t)signed_num;
num += (mp_uintmax_t)1;
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}
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goto number;
unsigned_number:
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/* Unsigned number of base BASE. */
is_neg = 0;
number:
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/* Number of base BASE. */
{
char *workend = &work[sizeof(work) - 1];
char *w;
/* Supply a default precision if none was given. */
if(prec == -1)
prec = 1;
/* Put the number in WORK. */
w = workend;
while(num > 0) {
*w-- = digits[num % base];
num /= base;
}
width -= (long)(workend - w);
prec -= (long)(workend - w);
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if(is_alt && base == 8 && prec <= 0) {
*w-- = '0';
--width;
}
if(prec > 0) {
width -= prec;
while(prec-- > 0)
*w-- = '0';
}
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if(is_alt && base == 16)
width -= 2;
if(is_neg || (p->flags & FLAGS_SHOWSIGN) || (p->flags & FLAGS_SPACE))
--width;
if(!(p->flags & FLAGS_LEFT) && !(p->flags & FLAGS_PAD_NIL))
while(width-- > 0)
OUTCHAR(' ');
if(is_neg)
OUTCHAR('-');
else if(p->flags & FLAGS_SHOWSIGN)
OUTCHAR('+');
else if(p->flags & FLAGS_SPACE)
OUTCHAR(' ');
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if(is_alt && base == 16) {
OUTCHAR('0');
if(p->flags & FLAGS_UPPER)
OUTCHAR('X');
else
OUTCHAR('x');
}
if(!(p->flags & FLAGS_LEFT) && (p->flags & FLAGS_PAD_NIL))
while(width-- > 0)
OUTCHAR('0');
/* Write the number. */
while(++w <= workend) {
OUTCHAR(*w);
}
if(p->flags & FLAGS_LEFT)
while(width-- > 0)
OUTCHAR(' ');
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}
break;
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case FORMAT_STRING:
/* String. */
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{
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static const char null[] = "(nil)";
const char *str;
size_t len;
str = (char *) p->data.str;
if(str == NULL) {
/* Write null[] if there's space. */
if(prec == -1 || prec >= (long) sizeof(null) - 1) {
str = null;
len = sizeof(null) - 1;
/* Disable quotes around (nil) */
p->flags &= (~FLAGS_ALT);
}
else {
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str = "";
len = 0;
}
}
else
len = strlen(str);
if(prec != -1 && (size_t) prec < len)
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len = (size_t)prec;
width -= (long)len;
if(p->flags & FLAGS_ALT)
OUTCHAR('"');
if(!(p->flags&FLAGS_LEFT))
while(width-- > 0)
OUTCHAR(' ');
while(len-- > 0)
OUTCHAR(*str++);
if(p->flags&FLAGS_LEFT)
while(width-- > 0)
OUTCHAR(' ');
if(p->flags & FLAGS_ALT)
OUTCHAR('"');
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}
break;
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case FORMAT_PTR:
/* Generic pointer. */
{
void *ptr;
ptr = (void *) p->data.ptr;
if(ptr != NULL) {
/* If the pointer is not NULL, write it as a %#x spec. */
base = 16;
digits = (p->flags & FLAGS_UPPER)? upper_digits : lower_digits;
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is_alt = 1;
num = (size_t) ptr;
is_neg = 0;
goto number;
}
else {
/* Write "(nil)" for a nil pointer. */
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static const char strnil[] = "(nil)";
const char *point;
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width -= (long)(sizeof(strnil) - 1);
if(p->flags & FLAGS_LEFT)
while(width-- > 0)
OUTCHAR(' ');
for(point = strnil; *point != '\0'; ++point)
OUTCHAR(*point);
if(! (p->flags & FLAGS_LEFT))
while(width-- > 0)
OUTCHAR(' ');
}
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}
break;
case FORMAT_DOUBLE:
{
char formatbuf[32]="%";
char *fptr = &formatbuf[1];
size_t left = sizeof(formatbuf)-strlen(formatbuf);
int len;
width = -1;
if(p->flags & FLAGS_WIDTH)
width = p->width;
else if(p->flags & FLAGS_WIDTHPARAM)
width = (long)vto[p->width].data.num.as_signed;
prec = -1;
if(p->flags & FLAGS_PREC)
prec = p->precision;
else if(p->flags & FLAGS_PRECPARAM)
prec = (long)vto[p->precision].data.num.as_signed;
if(p->flags & FLAGS_LEFT)
*fptr++ = '-';
if(p->flags & FLAGS_SHOWSIGN)
*fptr++ = '+';
if(p->flags & FLAGS_SPACE)
*fptr++ = ' ';
if(p->flags & FLAGS_ALT)
*fptr++ = '#';
*fptr = 0;
if(width >= 0) {
/* RECURSIVE USAGE */
len = curl_msnprintf(fptr, left, "%ld", width);
fptr += len;
left -= len;
}
if(prec >= 0) {
/* RECURSIVE USAGE */
len = curl_msnprintf(fptr, left, ".%ld", prec);
fptr += len;
}
if(p->flags & FLAGS_LONG)
*fptr++ = 'l';
if(p->flags & FLAGS_FLOATE)
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*fptr++ = (char)((p->flags & FLAGS_UPPER) ? 'E':'e');
else if(p->flags & FLAGS_FLOATG)
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*fptr++ = (char)((p->flags & FLAGS_UPPER) ? 'G' : 'g');
else
*fptr++ = 'f';
*fptr = 0; /* and a final zero termination */
/* NOTE NOTE NOTE!! Not all sprintf implementations return number of
output characters */
(sprintf)(work, formatbuf, p->data.dnum);
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for(fptr=work; *fptr; fptr++)
OUTCHAR(*fptr);
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}
break;
case FORMAT_INTPTR:
/* Answer the count of characters written. */
#ifdef HAVE_LONG_LONG_TYPE
if(p->flags & FLAGS_LONGLONG)
*(LONG_LONG_TYPE *) p->data.ptr = (LONG_LONG_TYPE)done;
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else
#endif
if(p->flags & FLAGS_LONG)
*(long *) p->data.ptr = (long)done;
else if(!(p->flags & FLAGS_SHORT))
*(int *) p->data.ptr = (int)done;
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else
*(short *) p->data.ptr = (short)done;
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break;
default:
break;
}
f = *end++; /* goto end of %-code */
}
return done;
}
/* fputc() look-alike */
static int addbyter(int output, FILE *data)
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{
struct nsprintf *infop=(struct nsprintf *)data;
unsigned char outc = (unsigned char)output;
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if(infop->length < infop->max) {
/* only do this if we haven't reached max length yet */
infop->buffer[0] = outc; /* store */
infop->buffer++; /* increase pointer */
infop->length++; /* we are now one byte larger */
return outc; /* fputc() returns like this on success */
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}
return -1;
}
int curl_mvsnprintf(char *buffer, size_t maxlength, const char *format,
va_list ap_save)
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{
int retcode;
struct nsprintf info;
info.buffer = buffer;
info.length = 0;
info.max = maxlength;
retcode = dprintf_formatf(&info, addbyter, format, ap_save);
if(info.max) {
/* we terminate this with a zero byte */
if(info.max == info.length)
/* we're at maximum, scrap the last letter */
info.buffer[-1] = 0;
else
info.buffer[0] = 0;
}
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return retcode;
}
int curl_msnprintf(char *buffer, size_t maxlength, const char *format, ...)
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{
int retcode;
va_list ap_save; /* argument pointer */
va_start(ap_save, format);
retcode = curl_mvsnprintf(buffer, maxlength, format, ap_save);
va_end(ap_save);
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return retcode;
}
/* fputc() look-alike */
static int alloc_addbyter(int output, FILE *data)
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{
struct asprintf *infop=(struct asprintf *)data;
unsigned char outc = (unsigned char)output;
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if(!infop->buffer) {
infop->buffer = malloc(32);
if(!infop->buffer) {
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infop->fail = 1;
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return -1; /* fail */
}
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infop->alloc = 32;
infop->len =0;
}
else if(infop->len+1 >= infop->alloc) {
char *newptr;
newptr = realloc(infop->buffer, infop->alloc*2);
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if(!newptr) {
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infop->fail = 1;
return -1; /* fail */
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}
infop->buffer = newptr;
infop->alloc *= 2;
}
infop->buffer[ infop->len ] = outc;
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infop->len++;
return outc; /* fputc() returns like this on success */
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}
char *curl_maprintf(const char *format, ...)
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{
va_list ap_save; /* argument pointer */
int retcode;
struct asprintf info;
info.buffer = NULL;
info.len = 0;
info.alloc = 0;
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info.fail = 0;
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va_start(ap_save, format);
retcode = dprintf_formatf(&info, alloc_addbyter, format, ap_save);
va_end(ap_save);
if((-1 == retcode) || info.fail) {
if(info.alloc)
free(info.buffer);
return NULL;
}
if(info.alloc) {
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info.buffer[info.len] = 0; /* we terminate this with a zero byte */
return info.buffer;
}
else
return strdup("");
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}
char *curl_mvaprintf(const char *format, va_list ap_save)
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{
int retcode;
struct asprintf info;
info.buffer = NULL;
info.len = 0;
info.alloc = 0;
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info.fail = 0;
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retcode = dprintf_formatf(&info, alloc_addbyter, format, ap_save);
if((-1 == retcode) || info.fail) {
if(info.alloc)
free(info.buffer);
return NULL;
}
if(info.alloc) {
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info.buffer[info.len] = 0; /* we terminate this with a zero byte */
return info.buffer;
}
else
return strdup("");
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}
static int storebuffer(int output, FILE *data)
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{
char **buffer = (char **)data;
unsigned char outc = (unsigned char)output;
**buffer = outc;
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(*buffer)++;
return outc; /* act like fputc() ! */
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}
int curl_msprintf(char *buffer, const char *format, ...)
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{
va_list ap_save; /* argument pointer */
int retcode;
va_start(ap_save, format);
retcode = dprintf_formatf(&buffer, storebuffer, format, ap_save);
va_end(ap_save);
*buffer=0; /* we terminate this with a zero byte */
return retcode;
}
int curl_mprintf(const char *format, ...)
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{
int retcode;
va_list ap_save; /* argument pointer */
va_start(ap_save, format);
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retcode = dprintf_formatf(stdout, fputc, format, ap_save);
va_end(ap_save);
return retcode;
}
int curl_mfprintf(FILE *whereto, const char *format, ...)
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{
int retcode;
va_list ap_save; /* argument pointer */
va_start(ap_save, format);
retcode = dprintf_formatf(whereto, fputc, format, ap_save);
va_end(ap_save);
return retcode;
}
int curl_mvsprintf(char *buffer, const char *format, va_list ap_save)
1999-12-29 22:20:26 +08:00
{
int retcode;
retcode = dprintf_formatf(&buffer, storebuffer, format, ap_save);
*buffer=0; /* we terminate this with a zero byte */
return retcode;
}
int curl_mvprintf(const char *format, va_list ap_save)
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{
return dprintf_formatf(stdout, fputc, format, ap_save);
}
int curl_mvfprintf(FILE *whereto, const char *format, va_list ap_save)
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{
return dprintf_formatf(whereto, fputc, format, ap_save);
}