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/*
* Copyright (c) 1983, 1995, 1996 Eric P. Allman
* Copyright (c) 1988, 1993
* The Regents of the University of California. All rights reserved.
* Portions Copyright (c) 1996-2024, PostgreSQL Global Development Group
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* src/port/snprintf.c
*/
#include "c.h"
#include <math.h>
/*
* We used to use the platform's NL_ARGMAX here, but that's a bad idea,
* first because the point of this module is to remove platform dependencies
* not perpetuate them, and second because some platforms use ridiculously
* large values, leading to excessive stack consumption in dopr().
*/
#define PG_NL_ARGMAX 31
/*
* SNPRINTF, VSNPRINTF and friends
*
* These versions have been grabbed off the net. They have been
* cleaned up to compile properly and support for most of the C99
* specification has been added. Remaining unimplemented features are:
*
* 1. No locale support: the radix character is always '.' and the '
* (single quote) format flag is ignored.
*
* 2. No support for the "%n" format specification.
*
* 3. No support for wide characters ("lc" and "ls" formats).
*
* 4. No support for "long double" ("Lf" and related formats).
*
* 5. Space and '#' flags are not implemented.
*
* In addition, we support some extensions over C99:
*
* 1. Argument order control through "%n$" and "*n$", as required by POSIX.
*
* 2. "%m" expands to the value of strerror(errno), where errno is the
* value that variable had at the start of the call. This is a glibc
* extension, but a very useful one.
*
*
* Historically the result values of sprintf/snprintf varied across platforms.
* This implementation now follows the C99 standard:
*
* 1. -1 is returned if an error is detected in the format string, or if
* a write to the target stream fails (as reported by fwrite). Note that
* overrunning snprintf's target buffer is *not* an error.
*
* 2. For successful writes to streams, the actual number of bytes written
* to the stream is returned.
*
* 3. For successful sprintf/snprintf, the number of bytes that would have
* been written to an infinite-size buffer (excluding the trailing '\0')
* is returned. snprintf will truncate its output to fit in the buffer
* (ensuring a trailing '\0' unless count == 0), but this is not reflected
* in the function result.
*
* snprintf buffer overrun can be detected by checking for function result
* greater than or equal to the supplied count.
*/
/**************************************************************
* Original:
* Patrick Powell Tue Apr 11 09:48:21 PDT 1995
* A bombproof version of doprnt (dopr) included.
* Sigh. This sort of thing is always nasty do deal with. Note that
* the version here does not include floating point. (now it does ... tgl)
**************************************************************/
/* Prevent recursion */
#undef vsnprintf
#undef snprintf
#undef vsprintf
#undef sprintf
#undef vfprintf
#undef fprintf
#undef vprintf
#undef printf
/*
* Info about where the formatted output is going.
*
* dopr and subroutines will not write at/past bufend, but snprintf
* reserves one byte, ensuring it may place the trailing '\0' there.
*
* In snprintf, we use nchars to count the number of bytes dropped on the
* floor due to buffer overrun. The correct result of snprintf is thus
* (bufptr - bufstart) + nchars. (This isn't as inconsistent as it might
* seem: nchars is the number of emitted bytes that are not in the buffer now,
* either because we sent them to the stream or because we couldn't fit them
* into the buffer to begin with.)
*/
typedef struct
{
char *bufptr; /* next buffer output position */
char *bufstart; /* first buffer element */
char *bufend; /* last+1 buffer element, or NULL */
/* bufend == NULL is for sprintf, where we assume buf is big enough */
FILE *stream; /* eventual output destination, or NULL */
int nchars; /* # chars sent to stream, or dropped */
bool failed; /* call is a failure; errno is set */
} PrintfTarget;
/*
* Info about the type and value of a formatting parameter. Note that we
* don't currently support "long double", "wint_t", or "wchar_t *" data,
* nor the '%n' formatting code; else we'd need more types. Also, at this
* level we need not worry about signed vs unsigned values.
*/
typedef enum
{
ATYPE_NONE = 0,
ATYPE_INT,
ATYPE_LONG,
ATYPE_LONGLONG,
ATYPE_DOUBLE,
ATYPE_CHARPTR
} PrintfArgType;
typedef union
{
int i;
long l;
long long ll;
double d;
char *cptr;
} PrintfArgValue;
static void flushbuffer(PrintfTarget *target);
static void dopr(PrintfTarget *target, const char *format, va_list args);
/*
* Externally visible entry points.
*
* All of these are just wrappers around dopr(). Note it's essential that
* they not change the value of "errno" before reaching dopr().
*/
int
pg_vsnprintf(char *str, size_t count, const char *fmt, va_list args)
{
PrintfTarget target;
char onebyte[1];
/*
* C99 allows the case str == NULL when count == 0. Rather than
* special-casing this situation further down, we substitute a one-byte
* local buffer. Callers cannot tell, since the function result doesn't
* depend on count.
*/
if (count == 0)
{
str = onebyte;
count = 1;
}
target.bufstart = target.bufptr = str;
target.bufend = str + count - 1;
target.stream = NULL;
target.nchars = 0;
target.failed = false;
dopr(&target, fmt, args);
*(target.bufptr) = '\0';
return target.failed ? -1 : (target.bufptr - target.bufstart
+ target.nchars);
}
int
pg_snprintf(char *str, size_t count, const char *fmt,...)
{
int len;
va_list args;
va_start(args, fmt);
len = pg_vsnprintf(str, count, fmt, args);
va_end(args);
return len;
}
int
pg_vsprintf(char *str, const char *fmt, va_list args)
{
PrintfTarget target;
target.bufstart = target.bufptr = str;
target.bufend = NULL;
target.stream = NULL;
target.nchars = 0; /* not really used in this case */
target.failed = false;
dopr(&target, fmt, args);
*(target.bufptr) = '\0';
return target.failed ? -1 : (target.bufptr - target.bufstart
+ target.nchars);
}
int
pg_sprintf(char *str, const char *fmt,...)
{
int len;
va_list args;
va_start(args, fmt);
len = pg_vsprintf(str, fmt, args);
va_end(args);
return len;
}
int
pg_vfprintf(FILE *stream, const char *fmt, va_list args)
{
PrintfTarget target;
char buffer[1024]; /* size is arbitrary */
if (stream == NULL)
{
errno = EINVAL;
return -1;
}
target.bufstart = target.bufptr = buffer;
target.bufend = buffer + sizeof(buffer); /* use the whole buffer */
target.stream = stream;
target.nchars = 0;
target.failed = false;
dopr(&target, fmt, args);
/* dump any remaining buffer contents */
flushbuffer(&target);
return target.failed ? -1 : target.nchars;
}
int
pg_fprintf(FILE *stream, const char *fmt,...)
{
int len;
va_list args;
va_start(args, fmt);
len = pg_vfprintf(stream, fmt, args);
va_end(args);
return len;
}
int
pg_vprintf(const char *fmt, va_list args)
{
return pg_vfprintf(stdout, fmt, args);
}
int
pg_printf(const char *fmt,...)
{
int len;
va_list args;
va_start(args, fmt);
len = pg_vfprintf(stdout, fmt, args);
va_end(args);
return len;
}
/*
* Attempt to write the entire buffer to target->stream; discard the entire
* buffer in any case. Call this only when target->stream is defined.
*/
static void
flushbuffer(PrintfTarget *target)
{
size_t nc = target->bufptr - target->bufstart;
/*
* Don't write anything if we already failed; this is to ensure we
* preserve the original failure's errno.
*/
if (!target->failed && nc > 0)
{
size_t written;
written = fwrite(target->bufstart, 1, nc, target->stream);
target->nchars += written;
if (written != nc)
target->failed = true;
}
target->bufptr = target->bufstart;
}
static bool find_arguments(const char *format, va_list args,
PrintfArgValue *argvalues);
static void fmtstr(const char *value, int leftjust, int minlen, int maxwidth,
int pointflag, PrintfTarget *target);
static void fmtptr(const void *value, PrintfTarget *target);
static void fmtint(long long value, char type, int forcesign,
int leftjust, int minlen, int zpad, int precision, int pointflag,
PrintfTarget *target);
static void fmtchar(int value, int leftjust, int minlen, PrintfTarget *target);
static void fmtfloat(double value, char type, int forcesign,
int leftjust, int minlen, int zpad, int precision, int pointflag,
PrintfTarget *target);
static void dostr(const char *str, int slen, PrintfTarget *target);
static void dopr_outch(int c, PrintfTarget *target);
static void dopr_outchmulti(int c, int slen, PrintfTarget *target);
static int adjust_sign(int is_negative, int forcesign, int *signvalue);
static int compute_padlen(int minlen, int vallen, int leftjust);
static void leading_pad(int zpad, int signvalue, int *padlen,
PrintfTarget *target);
static void trailing_pad(int padlen, PrintfTarget *target);
/*
* If strchrnul exists (it's a glibc-ism), it's a good bit faster than the
* equivalent manual loop. If it doesn't exist, provide a replacement.
*
* Note: glibc declares this as returning "char *", but that would require
* casting away const internally, so we don't follow that detail.
*/
#ifndef HAVE_STRCHRNUL
static inline const char *
strchrnul(const char *s, int c)
{
while (*s != '\0' && *s != c)
s++;
return s;
}
#else
/*
* glibc's <string.h> declares strchrnul only if _GNU_SOURCE is defined.
* While we typically use that on glibc platforms, configure will set
* HAVE_STRCHRNUL whether it's used or not. Fill in the missing declaration
* so that this file will compile cleanly with or without _GNU_SOURCE.
*/
#ifndef _GNU_SOURCE
extern char *strchrnul(const char *s, int c);
#endif
#endif /* HAVE_STRCHRNUL */
/*
* dopr(): the guts of *printf for all cases.
*/
static void
dopr(PrintfTarget *target, const char *format, va_list args)
{
int save_errno = errno;
const char *first_pct = NULL;
int ch;
bool have_dollar;
bool have_star;
bool afterstar;
int accum;
int longlongflag;
int longflag;
int pointflag;
int leftjust;
int fieldwidth;
int precision;
int zpad;
int forcesign;
int fmtpos;
int cvalue;
long long numvalue;
double fvalue;
const char *strvalue;
PrintfArgValue argvalues[PG_NL_ARGMAX + 1];
/*
* Initially, we suppose the format string does not use %n$. The first
* time we come to a conversion spec that has that, we'll call
* find_arguments() to check for consistent use of %n$ and fill the
* argvalues array with the argument values in the correct order.
*/
have_dollar = false;
while (*format != '\0')
{
/* Locate next conversion specifier */
if (*format != '%')
{
/* Scan to next '%' or end of string */
const char *next_pct = strchrnul(format + 1, '%');
/* Dump literal data we just scanned over */
dostr(format, next_pct - format, target);
if (target->failed)
break;
if (*next_pct == '\0')
break;
format = next_pct;
}
/*
* Remember start of first conversion spec; if we find %n$, then it's
* sufficient for find_arguments() to start here, without rescanning
* earlier literal text.
*/
if (first_pct == NULL)
first_pct = format;
/* Process conversion spec starting at *format */
format++;
/* Fast path for conversion spec that is exactly %s */
if (*format == 's')
{
format++;
strvalue = va_arg(args, char *);
if (strvalue == NULL)
strvalue = "(null)";
dostr(strvalue, strlen(strvalue), target);
if (target->failed)
break;
continue;
}
fieldwidth = precision = zpad = leftjust = forcesign = 0;
longflag = longlongflag = pointflag = 0;
fmtpos = accum = 0;
have_star = afterstar = false;
nextch2:
ch = *format++;
switch (ch)
{
case '-':
leftjust = 1;
goto nextch2;
case '+':
forcesign = 1;
goto nextch2;
case '0':
/* set zero padding if no nonzero digits yet */
if (accum == 0 && !pointflag)
zpad = '0';
/* FALL THRU */
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
accum = accum * 10 + (ch - '0');
goto nextch2;
case '.':
if (have_star)
have_star = false;
else
fieldwidth = accum;
pointflag = 1;
accum = 0;
goto nextch2;
case '*':
if (have_dollar)
{
/*
* We'll process value after reading n$. Note it's OK to
* assume have_dollar is set correctly, because in a valid
* format string the initial % must have had n$ if * does.
*/
afterstar = true;
}
else
{
/* fetch and process value now */
int starval = va_arg(args, int);
if (pointflag)
{
precision = starval;
if (precision < 0)
{
precision = 0;
pointflag = 0;
}
}
else
{
fieldwidth = starval;
if (fieldwidth < 0)
{
leftjust = 1;
fieldwidth = -fieldwidth;
}
}
}
have_star = true;
accum = 0;
goto nextch2;
case '$':
/* First dollar sign? */
if (!have_dollar)
{
/* Yup, so examine all conversion specs in format */
if (!find_arguments(first_pct, args, argvalues))
goto bad_format;
have_dollar = true;
}
if (afterstar)
{
/* fetch and process star value */
int starval = argvalues[accum].i;
if (pointflag)
{
precision = starval;
if (precision < 0)
{
precision = 0;
pointflag = 0;
}
}
else
{
fieldwidth = starval;
if (fieldwidth < 0)
{
leftjust = 1;
fieldwidth = -fieldwidth;
}
}
afterstar = false;
}
else
fmtpos = accum;
accum = 0;
goto nextch2;
case 'l':
if (longflag)
longlongflag = 1;
else
longflag = 1;
goto nextch2;
case 'z':
#if SIZEOF_SIZE_T == 8
#ifdef HAVE_LONG_INT_64
longflag = 1;
#elif defined(HAVE_LONG_LONG_INT_64)
longlongflag = 1;
#else
#error "Don't know how to print 64bit integers"
#endif
#else
/* assume size_t is same size as int */
#endif
goto nextch2;
case 'h':
case '\'':
/* ignore these */
goto nextch2;
case 'd':
case 'i':
if (!have_star)
{
if (pointflag)
precision = accum;
else
fieldwidth = accum;
}
if (have_dollar)
{
if (longlongflag)
numvalue = argvalues[fmtpos].ll;
else if (longflag)
numvalue = argvalues[fmtpos].l;
else
numvalue = argvalues[fmtpos].i;
}
else
{
if (longlongflag)
numvalue = va_arg(args, long long);
else if (longflag)
numvalue = va_arg(args, long);
else
numvalue = va_arg(args, int);
}
fmtint(numvalue, ch, forcesign, leftjust, fieldwidth, zpad,
precision, pointflag, target);
break;
case 'o':
case 'u':
case 'x':
case 'X':
if (!have_star)
{
if (pointflag)
precision = accum;
else
fieldwidth = accum;
}
if (have_dollar)
{
if (longlongflag)
numvalue = (unsigned long long) argvalues[fmtpos].ll;
else if (longflag)
numvalue = (unsigned long) argvalues[fmtpos].l;
else
numvalue = (unsigned int) argvalues[fmtpos].i;
}
else
{
if (longlongflag)
numvalue = (unsigned long long) va_arg(args, long long);
else if (longflag)
numvalue = (unsigned long) va_arg(args, long);
else
numvalue = (unsigned int) va_arg(args, int);
}
fmtint(numvalue, ch, forcesign, leftjust, fieldwidth, zpad,
precision, pointflag, target);
break;
case 'c':
if (!have_star)
{
if (pointflag)
precision = accum;
else
fieldwidth = accum;
}
if (have_dollar)
cvalue = (unsigned char) argvalues[fmtpos].i;
else
cvalue = (unsigned char) va_arg(args, int);
fmtchar(cvalue, leftjust, fieldwidth, target);
break;
case 's':
if (!have_star)
{
if (pointflag)
precision = accum;
else
fieldwidth = accum;
}
if (have_dollar)
strvalue = argvalues[fmtpos].cptr;
else
strvalue = va_arg(args, char *);
/* If string is NULL, silently substitute "(null)" */
if (strvalue == NULL)
strvalue = "(null)";
fmtstr(strvalue, leftjust, fieldwidth, precision, pointflag,
target);
break;
case 'p':
/* fieldwidth/leftjust are ignored ... */
if (have_dollar)
strvalue = argvalues[fmtpos].cptr;
else
strvalue = va_arg(args, char *);
fmtptr((const void *) strvalue, target);
break;
case 'e':
case 'E':
case 'f':
case 'g':
case 'G':
if (!have_star)
{
if (pointflag)
precision = accum;
else
fieldwidth = accum;
}
if (have_dollar)
fvalue = argvalues[fmtpos].d;
else
fvalue = va_arg(args, double);
fmtfloat(fvalue, ch, forcesign, leftjust,
fieldwidth, zpad,
precision, pointflag,
target);
break;
case 'm':
{
char errbuf[PG_STRERROR_R_BUFLEN];
const char *errm = strerror_r(save_errno,
errbuf, sizeof(errbuf));
dostr(errm, strlen(errm), target);
}
break;
case '%':
dopr_outch('%', target);
break;
default:
/*
* Anything else --- in particular, '\0' indicating end of
* format string --- is bogus.
*/
goto bad_format;
}
/* Check for failure after each conversion spec */
if (target->failed)
break;
}
return;
bad_format:
errno = EINVAL;
target->failed = true;
}
/*
* find_arguments(): sort out the arguments for a format spec with %n$
*
* If format is valid, return true and fill argvalues[i] with the value
* for the conversion spec that has %i$ or *i$. Else return false.
*/
static bool
find_arguments(const char *format, va_list args,
PrintfArgValue *argvalues)
{
int ch;
bool afterstar;
int accum;
int longlongflag;
int longflag;
int fmtpos;
int i;
int last_dollar = 0; /* Init to "no dollar arguments known" */
PrintfArgType argtypes[PG_NL_ARGMAX + 1] = {0};
/*
* This loop must accept the same format strings as the one in dopr().
* However, we don't need to analyze them to the same level of detail.
*
* Since we're only called if there's a dollar-type spec somewhere, we can
* fail immediately if we find a non-dollar spec. Per the C99 standard,
* all argument references in the format string must be one or the other.
*/
while (*format != '\0')
{
/* Locate next conversion specifier */
if (*format != '%')
{
/* Unlike dopr, we can just quit if there's no more specifiers */
format = strchr(format + 1, '%');
if (format == NULL)
break;
}
/* Process conversion spec starting at *format */
format++;
longflag = longlongflag = 0;
fmtpos = accum = 0;
afterstar = false;
nextch1:
ch = *format++;
switch (ch)
{
case '-':
case '+':
goto nextch1;
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
accum = accum * 10 + (ch - '0');
goto nextch1;
case '.':
accum = 0;
goto nextch1;
case '*':
if (afterstar)
return false; /* previous star missing dollar */
afterstar = true;
accum = 0;
goto nextch1;
case '$':
if (accum <= 0 || accum > PG_NL_ARGMAX)
return false;
if (afterstar)
{
if (argtypes[accum] &&
argtypes[accum] != ATYPE_INT)
return false;
argtypes[accum] = ATYPE_INT;
last_dollar = Max(last_dollar, accum);
afterstar = false;
}
else
fmtpos = accum;
accum = 0;
goto nextch1;
case 'l':
if (longflag)
longlongflag = 1;
else
longflag = 1;
goto nextch1;
case 'z':
#if SIZEOF_SIZE_T == 8
#ifdef HAVE_LONG_INT_64
longflag = 1;
#elif defined(HAVE_LONG_LONG_INT_64)
longlongflag = 1;
#else
#error "Don't know how to print 64bit integers"
#endif
#else
/* assume size_t is same size as int */
#endif
goto nextch1;
case 'h':
case '\'':
/* ignore these */
goto nextch1;
case 'd':
case 'i':
case 'o':
case 'u':
case 'x':
case 'X':
if (fmtpos)
{
PrintfArgType atype;
if (longlongflag)
atype = ATYPE_LONGLONG;
else if (longflag)
atype = ATYPE_LONG;
else
atype = ATYPE_INT;
if (argtypes[fmtpos] &&
argtypes[fmtpos] != atype)
return false;
argtypes[fmtpos] = atype;
last_dollar = Max(last_dollar, fmtpos);
}
else
return false; /* non-dollar conversion spec */
break;
case 'c':
if (fmtpos)
{
if (argtypes[fmtpos] &&
argtypes[fmtpos] != ATYPE_INT)
return false;
argtypes[fmtpos] = ATYPE_INT;
last_dollar = Max(last_dollar, fmtpos);
}
else
return false; /* non-dollar conversion spec */
break;
case 's':
case 'p':
if (fmtpos)
{
if (argtypes[fmtpos] &&
argtypes[fmtpos] != ATYPE_CHARPTR)
return false;
argtypes[fmtpos] = ATYPE_CHARPTR;
last_dollar = Max(last_dollar, fmtpos);
}
else
return false; /* non-dollar conversion spec */
break;
case 'e':
case 'E':
case 'f':
case 'g':
case 'G':
if (fmtpos)
{
if (argtypes[fmtpos] &&
argtypes[fmtpos] != ATYPE_DOUBLE)
return false;
argtypes[fmtpos] = ATYPE_DOUBLE;
last_dollar = Max(last_dollar, fmtpos);
}
else
return false; /* non-dollar conversion spec */
break;
case 'm':
case '%':
break;
default:
return false; /* bogus format string */
}
/*
* If we finish the spec with afterstar still set, there's a
* non-dollar star in there.
*/
if (afterstar)
return false; /* non-dollar conversion spec */
}
/*
* Format appears valid so far, so collect the arguments in physical
* order. (Since we rejected any non-dollar specs that would have
* collected arguments, we know that dopr() hasn't collected any yet.)
*/
for (i = 1; i <= last_dollar; i++)
{
switch (argtypes[i])
{
case ATYPE_NONE:
return false;
case ATYPE_INT:
argvalues[i].i = va_arg(args, int);
break;
case ATYPE_LONG:
argvalues[i].l = va_arg(args, long);
break;
case ATYPE_LONGLONG:
argvalues[i].ll = va_arg(args, long long);
break;
case ATYPE_DOUBLE:
argvalues[i].d = va_arg(args, double);
break;
case ATYPE_CHARPTR:
argvalues[i].cptr = va_arg(args, char *);
break;
}
}
return true;
}
static void
fmtstr(const char *value, int leftjust, int minlen, int maxwidth,
int pointflag, PrintfTarget *target)
{
int padlen,
vallen; /* amount to pad */
/*
* If a maxwidth (precision) is specified, we must not fetch more bytes
* than that.
*/
if (pointflag)
vallen = strnlen(value, maxwidth);
else
vallen = strlen(value);
padlen = compute_padlen(minlen, vallen, leftjust);
if (padlen > 0)
{
dopr_outchmulti(' ', padlen, target);
padlen = 0;
}
dostr(value, vallen, target);
trailing_pad(padlen, target);
}
static void
fmtptr(const void *value, PrintfTarget *target)
{
int vallen;
char convert[64];
/* we rely on regular C library's snprintf to do the basic conversion */
vallen = snprintf(convert, sizeof(convert), "%p", value);
if (vallen < 0)
target->failed = true;
else
dostr(convert, vallen, target);
}
static void
fmtint(long long value, char type, int forcesign, int leftjust,
int minlen, int zpad, int precision, int pointflag,
PrintfTarget *target)
{
unsigned long long uvalue;
int base;
int dosign;
const char *cvt = "0123456789abcdef";
int signvalue = 0;
char convert[64];
int vallen = 0;
int padlen; /* amount to pad */
int zeropad; /* extra leading zeroes */
switch (type)
{
case 'd':
case 'i':
base = 10;
dosign = 1;
break;
case 'o':
base = 8;
dosign = 0;
break;
case 'u':
base = 10;
dosign = 0;
break;
case 'x':
base = 16;
dosign = 0;
break;
case 'X':
cvt = "0123456789ABCDEF";
base = 16;
dosign = 0;
break;
default:
return; /* keep compiler quiet */
}
/* disable MSVC warning about applying unary minus to an unsigned value */
#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable: 4146)
#endif
/* Handle +/- */
if (dosign && adjust_sign((value < 0), forcesign, &signvalue))
uvalue = -(unsigned long long) value;
else
uvalue = (unsigned long long) value;
#ifdef _MSC_VER
#pragma warning(pop)
#endif
/*
* SUS: the result of converting 0 with an explicit precision of 0 is no
* characters
*/
if (value == 0 && pointflag && precision == 0)
vallen = 0;
else
{
/*
* Convert integer to string. We special-case each of the possible
* base values so as to avoid general-purpose divisions. On most
* machines, division by a fixed constant can be done much more
* cheaply than a general divide.
*/
if (base == 10)
{
do
{
convert[sizeof(convert) - (++vallen)] = cvt[uvalue % 10];
uvalue = uvalue / 10;
} while (uvalue);
}
else if (base == 16)
{
do
{
convert[sizeof(convert) - (++vallen)] = cvt[uvalue % 16];
uvalue = uvalue / 16;
} while (uvalue);
}
else /* base == 8 */
{
do
{
convert[sizeof(convert) - (++vallen)] = cvt[uvalue % 8];
uvalue = uvalue / 8;
} while (uvalue);
}
}
zeropad = Max(0, precision - vallen);
padlen = compute_padlen(minlen, vallen + zeropad, leftjust);
leading_pad(zpad, signvalue, &padlen, target);
if (zeropad > 0)
dopr_outchmulti('0', zeropad, target);
dostr(convert + sizeof(convert) - vallen, vallen, target);
trailing_pad(padlen, target);
}
static void
fmtchar(int value, int leftjust, int minlen, PrintfTarget *target)
{
int padlen; /* amount to pad */
padlen = compute_padlen(minlen, 1, leftjust);
if (padlen > 0)
{
dopr_outchmulti(' ', padlen, target);
padlen = 0;
}
dopr_outch(value, target);
trailing_pad(padlen, target);
}
static void
fmtfloat(double value, char type, int forcesign, int leftjust,
int minlen, int zpad, int precision, int pointflag,
PrintfTarget *target)
{
int signvalue = 0;
int prec;
int vallen;
char fmt[8];
char convert[1024];
int zeropadlen = 0; /* amount to pad with zeroes */
int padlen; /* amount to pad with spaces */
/*
* We rely on the regular C library's snprintf to do the basic conversion,
* then handle padding considerations here.
*
* The dynamic range of "double" is about 1E+-308 for IEEE math, and not
* too wildly more than that with other hardware. In "f" format, snprintf
* could therefore generate at most 308 characters to the left of the
* decimal point; while we need to allow the precision to get as high as
* 308+17 to ensure that we don't truncate significant digits from very
* small values. To handle both these extremes, we use a buffer of 1024
* bytes and limit requested precision to 350 digits; this should prevent
* buffer overrun even with non-IEEE math. If the original precision
* request was more than 350, separately pad with zeroes.
*
* We handle infinities and NaNs specially to ensure platform-independent
* output.
*/
if (precision < 0) /* cover possible overflow of "accum" */
precision = 0;
prec = Min(precision, 350);
if (isnan(value))
{
strcpy(convert, "NaN");
vallen = 3;
/* no zero padding, regardless of precision spec */
}
else
{
/*
* Handle sign (NaNs have no sign, so we don't do this in the case
* above). "value < 0.0" will not be true for IEEE minus zero, so we
* detect that by looking for the case where value equals 0.0
* according to == but not according to memcmp.
*/
static const double dzero = 0.0;
if (adjust_sign((value < 0.0 ||
(value == 0.0 &&
memcmp(&value, &dzero, sizeof(double)) != 0)),
forcesign, &signvalue))
value = -value;
if (isinf(value))
{
strcpy(convert, "Infinity");
vallen = 8;
/* no zero padding, regardless of precision spec */
}
else if (pointflag)
{
zeropadlen = precision - prec;
fmt[0] = '%';
fmt[1] = '.';
fmt[2] = '*';
fmt[3] = type;
fmt[4] = '\0';
vallen = snprintf(convert, sizeof(convert), fmt, prec, value);
}
else
{
fmt[0] = '%';
fmt[1] = type;
fmt[2] = '\0';
vallen = snprintf(convert, sizeof(convert), fmt, value);
}
if (vallen < 0)
goto fail;
/*
* Windows, alone among our supported platforms, likes to emit
* three-digit exponent fields even when two digits would do. Hack
* such results to look like the way everyone else does it.
*/
#ifdef WIN32
if (vallen >= 6 &&
convert[vallen - 5] == 'e' &&
convert[vallen - 3] == '0')
{
convert[vallen - 3] = convert[vallen - 2];
convert[vallen - 2] = convert[vallen - 1];
vallen--;
}
#endif
}
padlen = compute_padlen(minlen, vallen + zeropadlen, leftjust);
leading_pad(zpad, signvalue, &padlen, target);
if (zeropadlen > 0)
{
/* If 'e' or 'E' format, inject zeroes before the exponent */
char *epos = strrchr(convert, 'e');
if (!epos)
epos = strrchr(convert, 'E');
if (epos)
{
/* pad before exponent */
dostr(convert, epos - convert, target);
dopr_outchmulti('0', zeropadlen, target);
dostr(epos, vallen - (epos - convert), target);
}
else
{
/* no exponent, pad after the digits */
dostr(convert, vallen, target);
dopr_outchmulti('0', zeropadlen, target);
}
}
else
{
/* no zero padding, just emit the number as-is */
dostr(convert, vallen, target);
}
trailing_pad(padlen, target);
return;
fail:
target->failed = true;
}
/*
* Nonstandard entry point to print a double value efficiently.
*
* This is approximately equivalent to strfromd(), but has an API more
* adapted to what float8out() wants. The behavior is like snprintf()
* with a format of "%.ng", where n is the specified precision.
* However, the target buffer must be nonempty (i.e. count > 0), and
* the precision is silently bounded to a sane range.
*/
int
pg_strfromd(char *str, size_t count, int precision, double value)
{
PrintfTarget target;
int signvalue = 0;
int vallen;
char fmt[8];
char convert[64];
/* Set up the target like pg_snprintf, but require nonempty buffer */
Assert(count > 0);
target.bufstart = target.bufptr = str;
target.bufend = str + count - 1;
target.stream = NULL;
target.nchars = 0;
target.failed = false;
/*
* We bound precision to a reasonable range; the combination of this and
* the knowledge that we're using "g" format without padding allows the
* convert[] buffer to be reasonably small.
*/
if (precision < 1)
precision = 1;
else if (precision > 32)
precision = 32;
/*
* The rest is just an inlined version of the fmtfloat() logic above,
* simplified using the knowledge that no padding is wanted.
*/
if (isnan(value))
{
strcpy(convert, "NaN");
vallen = 3;
}
else
{
static const double dzero = 0.0;
if (value < 0.0 ||
(value == 0.0 &&
memcmp(&value, &dzero, sizeof(double)) != 0))
{
signvalue = '-';
value = -value;
}
if (isinf(value))
{
strcpy(convert, "Infinity");
vallen = 8;
}
else
{
fmt[0] = '%';
fmt[1] = '.';
fmt[2] = '*';
fmt[3] = 'g';
fmt[4] = '\0';
vallen = snprintf(convert, sizeof(convert), fmt, precision, value);
if (vallen < 0)
{
target.failed = true;
goto fail;
}
#ifdef WIN32
if (vallen >= 6 &&
convert[vallen - 5] == 'e' &&
convert[vallen - 3] == '0')
{
convert[vallen - 3] = convert[vallen - 2];
convert[vallen - 2] = convert[vallen - 1];
vallen--;
}
#endif
}
}
if (signvalue)
dopr_outch(signvalue, &target);
dostr(convert, vallen, &target);
fail:
*(target.bufptr) = '\0';
return target.failed ? -1 : (target.bufptr - target.bufstart
+ target.nchars);
}
/*
* Nonstandard entry point to print a double value efficiently.
*
* This is approximately equivalent to strfromd(), but has an API more
* adapted to what float8out() wants. The behavior is like snprintf()
* with a format of "%.ng", where n is the specified precision.
* However, the target buffer must be nonempty (i.e. count > 0), and
* the precision is silently bounded to a sane range.
*/
int
ivy_strfromd(char *str, size_t count, int precision, double value)
{
PrintfTarget target;
int signvalue = 0;
int vallen;
char fmt[8];
char convert[64];
/* Set up the target like pg_snprintf, but require nonempty buffer */
Assert(count > 0);
target.bufstart = target.bufptr = str;
target.bufend = str + count - 1;
target.stream = NULL;
target.nchars = 0;
target.failed = false;
/*
* We bound precision to a reasonable range; the combination of this and
* the knowledge that we're using "g" format without padding allows the
* convert[] buffer to be reasonably small.
*/
if (precision < 1)
precision = 1;
else if (precision > 32)
precision = 32;
/*
* The rest is just an inlined version of the fmtfloat() logic above,
* simplified using the knowledge that no padding is wanted.
*/
if (isnan(value))
{
strcpy(convert, "Nan");
vallen = 3;
}
else
{
static const double dzero = 0.0;
if (value < 0.0 ||
(value == 0.0 &&
memcmp(&value, &dzero, sizeof(double)) != 0))
{
signvalue = '-';
value = -value;
}
if (isinf(value))
{
strcpy(convert, "Inf");
vallen = 3;
}
else
{
fmt[0] = '%';
fmt[1] = '.';
fmt[2] = '*';
fmt[3] = 'g';
fmt[4] = '\0';
vallen = sprintf(convert, fmt, precision, value);
if (vallen < 0)
{
target.failed = true;
goto fail;
}
#ifdef WIN32
if (vallen >= 6 &&
convert[vallen - 5] == 'e' &&
convert[vallen - 3] == '0')
{
convert[vallen - 3] = convert[vallen - 2];
convert[vallen - 2] = convert[vallen - 1];
vallen--;
}
#endif
}
}
if (signvalue)
dopr_outch(signvalue, &target);
dostr(convert, vallen, &target);
fail:
*(target.bufptr) = '\0';
return target.failed ? -1 : (target.bufptr - target.bufstart
+ target.nchars);
}
static void
dostr(const char *str, int slen, PrintfTarget *target)
{
/* fast path for common case of slen == 1 */
if (slen == 1)
{
dopr_outch(*str, target);
return;
}
while (slen > 0)
{
int avail;
if (target->bufend != NULL)
avail = target->bufend - target->bufptr;
else
avail = slen;
if (avail <= 0)
{
/* buffer full, can we dump to stream? */
if (target->stream == NULL)
{
target->nchars += slen; /* no, lose the data */
return;
}
flushbuffer(target);
continue;
}
avail = Min(avail, slen);
memmove(target->bufptr, str, avail);
target->bufptr += avail;
str += avail;
slen -= avail;
}
}
static void
dopr_outch(int c, PrintfTarget *target)
{
if (target->bufend != NULL && target->bufptr >= target->bufend)
{
/* buffer full, can we dump to stream? */
if (target->stream == NULL)
{
target->nchars++; /* no, lose the data */
return;
}
flushbuffer(target);
}
*(target->bufptr++) = c;
}
static void
dopr_outchmulti(int c, int slen, PrintfTarget *target)
{
/* fast path for common case of slen == 1 */
if (slen == 1)
{
dopr_outch(c, target);
return;
}
while (slen > 0)
{
int avail;
if (target->bufend != NULL)
avail = target->bufend - target->bufptr;
else
avail = slen;
if (avail <= 0)
{
/* buffer full, can we dump to stream? */
if (target->stream == NULL)
{
target->nchars += slen; /* no, lose the data */
return;
}
flushbuffer(target);
continue;
}
avail = Min(avail, slen);
memset(target->bufptr, c, avail);
target->bufptr += avail;
slen -= avail;
}
}
static int
adjust_sign(int is_negative, int forcesign, int *signvalue)
{
if (is_negative)
{
*signvalue = '-';
return true;
}
else if (forcesign)
*signvalue = '+';
return false;
}
static int
compute_padlen(int minlen, int vallen, int leftjust)
{
int padlen;
padlen = minlen - vallen;
if (padlen < 0)
padlen = 0;
if (leftjust)
padlen = -padlen;
return padlen;
}
static void
leading_pad(int zpad, int signvalue, int *padlen, PrintfTarget *target)
{
int maxpad;
if (*padlen > 0 && zpad)
{
if (signvalue)
{
dopr_outch(signvalue, target);
--(*padlen);
signvalue = 0;
}
if (*padlen > 0)
{
dopr_outchmulti(zpad, *padlen, target);
*padlen = 0;
}
}
maxpad = (signvalue != 0);
if (*padlen > maxpad)
{
dopr_outchmulti(' ', *padlen - maxpad, target);
*padlen = maxpad;
}
if (signvalue)
{
dopr_outch(signvalue, target);
if (*padlen > 0)
--(*padlen);
else if (*padlen < 0)
++(*padlen);
}
}
static void
trailing_pad(int padlen, PrintfTarget *target)
{
if (padlen < 0)
dopr_outchmulti(' ', -padlen, target);
}
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