blob: ea772bac6869ecc50ea852ec1144af7bc2d9e4b0 [file] [log] [blame]
/*************************************************************************
*
* $Id$
*
* Copyright (C) 1998 Bjorn Reese and Daniel Stenberg.
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
* MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE AUTHORS AND
* CONTRIBUTORS ACCEPT NO RESPONSIBILITY IN ANY CONCEIVABLE MANNER.
*
*************************************************************************
*
* A note to trio contributors:
*
* Avoid heap allocation at all costs to ensure that the trio functions
* are async-safe. The exceptions are the printf/fprintf functions, which
* uses fputc, and the asprintf functions and the <alloc> modifier, which
* by design are required to allocate form the heap.
*
************************************************************************/
/*
* TODO:
* - Scan is probably too permissive about its modifiers.
* - C escapes in %#[] ?
* - C99 support has not been properly tested.
* - Multibyte characters (done for format parsing, except scan groups)
* - Complex numbers? (C99 _Complex)
* - Boolean values? (C99 _Bool)
* - C99 NaN(n-char-sequence) missing
* - Should we support the GNU %a alloc modifier? GNU has an ugly hack
* for %a, because C99 used %a for other purposes. If specified as
* %as or %a[ it is interpreted as the alloc modifier, otherwise as
* the C99 hex-float. This means that you cannot scan %as as a hex-float
* immediately followed by an 's'.
* - Scanning of collating symbols.
*/
static const char rcsid[] = "@(#)$Id$";
/*************************************************************************
* Trio include files
*/
#include "trio.h"
#include "triop.h"
#include "strio.h"
/*
* Encode the error code and the position. This is decoded
* with TRIO_ERROR_CODE and TRIO_ERROR_POSITION.
*/
#if TRIO_ERRORS
# define TRIO_ERROR_RETURN(x,y) (- ((x) + ((y) << 8)))
#else
# define TRIO_ERROR_RETURN(x,y) (-1)
#endif
/*************************************************************************
* Platform and compiler support detection
*/
#if defined(unix) || defined(__xlC__) || defined(_AIX) || defined(__QNX__)
# define PLATFORM_UNIX
#elif defined(AMIGA) && defined(__GNUC__)
# define PLATFORM_UNIX
#elif defined(WIN32) || defined(_WIN32) || defined(_MSC_VER)
# define PLATFORM_WIN32
# define TRIO_MSVC_5 1100
#endif
#if defined(__STDC__) && defined(__STDC_VERSION__)
# if (__STDC_VERSION__ >= 199409L)
# define TRIO_COMPILER_SUPPORTS_ISO94
# endif
# if (__STDC_VERSION__ >= 199901L)
# define TRIO_COMPILER_SUPPORTS_C99
# endif
#endif
#if defined(_XOPEN_SOURCE) && defined(_XOPEN_SOURCE_EXTENDED)
# define TRIO_COMPILER_SUPPORTS_UNIX98
#endif
#if defined(__STDC_ISO_10646__) || defined(MB_LEN_MAX) || defined(USE_MULTIBYTE) || TRIO_WIDECHAR
# define TRIO_COMPILER_SUPPORTS_MULTIBYTE
# if !defined(MB_LEN_MAX)
# define MB_LEN_MAX 6
# endif
#endif
/*************************************************************************
* Generic definitions
*/
#if !(defined(DEBUG) || defined(NDEBUG))
# define NDEBUG
#endif
#include <assert.h>
#include <ctype.h>
#if !defined(TRIO_COMPILER_SUPPORTS_C99)
# define isblank(x) (((x)==32) || ((x)==9))
#endif
#include <math.h>
#include <limits.h>
#include <float.h>
#include <stdarg.h>
#include <stddef.h>
#include <errno.h>
#ifndef NULL
# define NULL 0
#endif
#define NIL ((char)0)
#ifndef FALSE
# define FALSE (1 == 0)
# define TRUE (! FALSE)
#endif
#define BOOLEAN_T int
/* mincore() can be used for debugging purposes */
#define VALID(x) (NULL != (x))
/* xlC crashes on log10(0) */
#define guarded_log10(x) (((x) == 0.0) ? -HUGE_VAL : log10(x))
#define guarded_log16(x) (guarded_log10(x) / log10(16.0))
/*************************************************************************
* Platform specific definitions
*/
#if defined(PLATFORM_UNIX)
# include <unistd.h>
# include <signal.h>
# include <locale.h>
# define USE_LOCALE
#endif /* PLATFORM_UNIX */
#if defined(PLATFORM_WIN32)
# include <io.h>
# define read _read
# define write _write
#endif /* PLATFORM_WIN32 */
#if TRIO_WIDECHAR
# if defined(TRIO_COMPILER_SUPPORTS_ISO94)
# include <wchar.h>
# include <wctype.h>
# else
typedef char wchar_t;
typedef int wint_t;
# define WEOF EOF
# define iswalnum(x) isalnum(x)
# define iswalpha(x) isalpha(x)
# define iswblank(x) isblank(x)
# define iswcntrl(x) iscntrl(x)
# define iswdigit(x) isdigit(x)
# define iswgraph(x) isgraph(x)
# define iswlower(x) islower(x)
# define iswprint(x) isprint(x)
# define iswpunct(x) ispunct(x)
# define iswspace(x) isspace(x)
# define iswupper(x) isupper(x)
# define iswxdigit(x) isxdigit(x)
# endif
#endif
/*************************************************************************
* Compiler dependent definitions
*/
/* Support for long long */
#ifndef __cplusplus
# if !defined(USE_LONGLONG)
# if defined(__GNUC__) && !defined(__STRICT_ANSI__)
# define USE_LONGLONG
# elif defined(__SUNPRO_C)
# define USE_LONGLONG
# elif defined(_LONG_LONG) || defined(_LONGLONG)
# define USE_LONGLONG
# endif
# endif
#endif
/* The extra long numbers */
#if defined(USE_LONGLONG)
typedef signed long long int trio_longlong_t;
typedef unsigned long long int trio_ulonglong_t;
#elif defined(_MSC_VER)
# if (_MSC_VER >= TRIO_MSVC_5)
typedef signed __int64 trio_longlong_t;
typedef unsigned __int64 trio_ulonglong_t;
# else
typedef signed long int trio_longlong_t;
typedef unsigned long int trio_ulonglong_t;
# endif
#else
typedef signed long int trio_longlong_t;
typedef unsigned long int trio_ulonglong_t;
#endif
/* Maximal and fixed integer types */
#if defined(TRIO_COMPILER_SUPPORTS_C99)
# include <stdint.h>
typedef intmax_t trio_intmax_t;
typedef uintmax_t trio_uintmax_t;
typedef int8_t trio_int8_t;
typedef int16_t trio_int16_t;
typedef int32_t trio_int32_t;
typedef int64_t trio_int64_t;
#elif defined(TRIO_COMPILER_SUPPORTS_UNIX98)
# include <inttypes.h>
typedef intmax_t trio_intmax_t;
typedef uintmax_t trio_uintmax_t;
typedef int8_t trio_int8_t;
typedef int16_t trio_int16_t;
typedef int32_t trio_int32_t;
typedef int64_t trio_int64_t;
#elif defined(_MSC_VER) && (_MSC_VER >= TRIO_MSVC_5)
typedef trio_longlong_t trio_intmax_t;
typedef trio_ulonglong_t trio_uintmax_t;
typedef __int8 trio_int8_t;
typedef __int16 trio_int16_t;
typedef __int32 trio_int32_t;
typedef __int64 trio_int64_t;
#else
typedef trio_longlong_t trio_intmax_t;
typedef trio_ulonglong_t trio_uintmax_t;
# if defined(TRIO_INT8_T)
typedef TRIO_INT8_T trio_int8_t;
# else
typedef signed char trio_int8_t;
# endif
# if defined(TRIO_INT16_T)
typedef TRIO_INT16_T trio_int16_t;
# else
typedef signed short trio_int16_t;
# endif
# if defined(TRIO_INT32_T)
typedef TRIO_INT32_T trio_int32_t;
# else
typedef signed int trio_int32_t;
# endif
# if defined(TRIO_INT64_T)
typedef TRIO_INT64_T trio_int64_t;
# else
typedef trio_longlong_t trio_int64_t;
# endif
#endif
/*************************************************************************
* Internal definitions
*/
/* Long double sizes */
#ifdef LDBL_DIG
# define MAX_MANTISSA_DIGITS LDBL_DIG
# define MAX_EXPONENT_DIGITS 4
#else
# define MAX_MANTISSA_DIGITS DBL_DIG
# define MAX_EXPONENT_DIGITS 3
#endif
/* The maximal number of digits is for base 2 */
#define MAX_CHARS_IN(x) (sizeof(x) * CHAR_BIT)
/* The width of a pointer. The number of bits in a hex digit is 4 */
#define POINTER_WIDTH ((sizeof("0x") - 1) + sizeof(void *) * CHAR_BIT / 4)
/* Infinite and Not-A-Number for floating-point */
#define INFINITE_LOWER "inf"
#define INFINITE_UPPER "INF"
#define LONG_INFINITE_LOWER "infinite"
#define LONG_INFINITE_UPPER "INFINITE"
#define NAN_LOWER "nan"
#define NAN_UPPER "NAN"
/* Various constants */
enum {
TYPE_PRINT = 1,
TYPE_SCAN = 2,
/* Flags. Use maximum 32 */
FLAGS_NEW = 0,
FLAGS_STICKY = 1,
FLAGS_SPACE = 2 * FLAGS_STICKY,
FLAGS_SHOWSIGN = 2 * FLAGS_SPACE,
FLAGS_LEFTADJUST = 2 * FLAGS_SHOWSIGN,
FLAGS_ALTERNATIVE = 2 * FLAGS_LEFTADJUST,
FLAGS_SHORT = 2 * FLAGS_ALTERNATIVE,
FLAGS_SHORTSHORT = 2 * FLAGS_SHORT,
FLAGS_LONG = 2 * FLAGS_SHORTSHORT,
FLAGS_QUAD = 2 * FLAGS_LONG,
FLAGS_LONGDOUBLE = 2 * FLAGS_QUAD,
FLAGS_SIZE_T = 2 * FLAGS_LONGDOUBLE,
FLAGS_PTRDIFF_T = 2 * FLAGS_SIZE_T,
FLAGS_INTMAX_T = 2 * FLAGS_PTRDIFF_T,
FLAGS_NILPADDING = 2 * FLAGS_INTMAX_T,
FLAGS_UNSIGNED = 2 * FLAGS_NILPADDING,
FLAGS_UPPER = 2 * FLAGS_UNSIGNED,
FLAGS_WIDTH = 2 * FLAGS_UPPER,
FLAGS_WIDTH_PARAMETER = 2 * FLAGS_WIDTH,
FLAGS_PRECISION = 2 * FLAGS_WIDTH_PARAMETER,
FLAGS_PRECISION_PARAMETER = 2 * FLAGS_PRECISION,
FLAGS_BASE = 2 * FLAGS_PRECISION_PARAMETER,
FLAGS_BASE_PARAMETER = 2 * FLAGS_BASE,
FLAGS_FLOAT_E = 2 * FLAGS_BASE_PARAMETER,
FLAGS_FLOAT_G = 2 * FLAGS_FLOAT_E,
FLAGS_QUOTE = 2 * FLAGS_FLOAT_G,
FLAGS_WIDECHAR = 2 * FLAGS_QUOTE,
FLAGS_ALLOC = 2 * FLAGS_WIDECHAR,
FLAGS_IGNORE = 2 * FLAGS_ALLOC,
FLAGS_IGNORE_PARAMETER = 2 * FLAGS_IGNORE,
FLAGS_VARSIZE_PARAMETER = 2 * FLAGS_IGNORE_PARAMETER,
FLAGS_FIXED_SIZE = 2 * FLAGS_VARSIZE_PARAMETER,
/* Reused flags */
FLAGS_EXCLUDE = FLAGS_SHORT,
FLAGS_USER_DEFINED = FLAGS_IGNORE,
/* Compounded flags */
FLAGS_ALL_VARSIZES = FLAGS_LONG | FLAGS_QUAD | FLAGS_INTMAX_T | FLAGS_PTRDIFF_T | FLAGS_SIZE_T,
FLAGS_ALL_SIZES = FLAGS_ALL_VARSIZES | FLAGS_SHORTSHORT | FLAGS_SHORT,
NO_POSITION = -1,
NO_WIDTH = 0,
NO_PRECISION = -1,
NO_SIZE = -1,
NO_BASE = -1,
MIN_BASE = 2,
MAX_BASE = 36,
BASE_BINARY = 2,
BASE_OCTAL = 8,
BASE_DECIMAL = 10,
BASE_HEX = 16,
/* Maximal number of allowed parameters */
MAX_PARAMETERS = 64,
/* Maximal number of characters in class */
MAX_CHARACTER_CLASS = UCHAR_MAX,
/* Maximal string lengths for user-defined specifiers */
MAX_USER_NAME = 64,
MAX_USER_DATA = 256,
/* Maximal length of locale separator strings */
MAX_LOCALE_SEPARATOR_LENGTH = MB_LEN_MAX,
/* Maximal number of integers in grouping */
MAX_LOCALE_GROUPS = 64
};
#define NO_GROUPING ((int)CHAR_MAX)
/* Fundamental formatting parameter types */
#define FORMAT_UNKNOWN 0
#define FORMAT_INT 1
#define FORMAT_DOUBLE 2
#define FORMAT_CHAR 3
#define FORMAT_STRING 4
#define FORMAT_POINTER 5
#define FORMAT_COUNT 6
#define FORMAT_PARAMETER 7
#define FORMAT_GROUP 8
#if TRIO_GNU
# define FORMAT_ERRNO 9
#endif
#if TRIO_EXTENSION
# define FORMAT_USER_DEFINED 10
#endif
/* Character constants */
#define CHAR_IDENTIFIER '%'
#define CHAR_BACKSLASH '\\'
#define CHAR_QUOTE '\"'
#define CHAR_ADJUST ' '
/* Character class expressions */
#define CLASS_ALNUM ":alnum:"
#define CLASS_ALPHA ":alpha:"
#define CLASS_CNTRL ":cntrl:"
#define CLASS_DIGIT ":digit:"
#define CLASS_GRAPH ":graph:"
#define CLASS_LOWER ":lower:"
#define CLASS_PRINT ":print:"
#define CLASS_PUNCT ":punct:"
#define CLASS_SPACE ":space:"
#define CLASS_UPPER ":upper:"
#define CLASS_XDIGIT ":xdigit:"
/*
* SPECIFIERS:
*
*
* a Hex-float
* A Hex-float
* c Character
* C Widechar character (wint_t)
* d Decimal
* e Float
* E Float
* F Float
* F Float
* g Float
* G Float
* i Integer
* m Error message
* n Count
* o Octal
* p Pointer
* s String
* S Widechar string (wchar_t *)
* u Unsigned
* x Hex
* X Hex
* [] Group
* <> User-defined
*
* Reserved:
*
* D Binary Coded Decimal %D(length,precision) (OS/390)
*/
#define SPECIFIER_CHAR 'c'
#define SPECIFIER_STRING 's'
#define SPECIFIER_DECIMAL 'd'
#define SPECIFIER_INTEGER 'i'
#define SPECIFIER_UNSIGNED 'u'
#define SPECIFIER_OCTAL 'o'
#define SPECIFIER_HEX 'x'
#define SPECIFIER_HEX_UPPER 'X'
#define SPECIFIER_FLOAT_E 'e'
#define SPECIFIER_FLOAT_E_UPPER 'E'
#define SPECIFIER_FLOAT_F 'f'
#define SPECIFIER_FLOAT_F_UPPER 'F'
#define SPECIFIER_FLOAT_G 'g'
#define SPECIFIER_FLOAT_G_UPPER 'G'
#define SPECIFIER_POINTER 'p'
#define SPECIFIER_GROUP '['
#define SPECIFIER_UNGROUP ']'
#define SPECIFIER_COUNT 'n'
#if TRIO_UNIX98
# define SPECIFIER_CHAR_UPPER 'C'
# define SPECIFIER_STRING_UPPER 'S'
#endif
#if TRIO_C99
# define SPECIFIER_HEXFLOAT 'a'
# define SPECIFIER_HEXFLOAT_UPPER 'A'
#endif
#if TRIO_GNU
# define SPECIFIER_ERRNO 'm'
#endif
#if TRIO_EXTENSION
# define SPECIFIER_BINARY 'b'
# define SPECIFIER_BINARY_UPPER 'B'
# define SPECIFIER_USER_DEFINED_BEGIN '<'
# define SPECIFIER_USER_DEFINED_END '>'
# define SPECIFIER_USER_DEFINED_SEPARATOR ':'
#endif
/*
* QUALIFIERS:
*
*
* Numbers = d,i,o,u,x,X
* Float = a,A,e,E,f,F,g,G
* String = s
* Char = c
*
*
* 9$ Position
* Use the 9th parameter. 9 can be any number between 1 and
* the maximal argument
*
* 9 Width
* Set width to 9. 9 can be any number, but must not be postfixed
* by '$'
*
* h Short
* Numbers:
* (unsigned) short int
*
* hh Short short
* Numbers:
* (unsigned) char
*
* l Long
* Numbers:
* (unsigned) long int
* String:
* as the S specifier
* Char:
* as the C specifier
*
* ll Long Long
* Numbers:
* (unsigned) long long int
*
* L Long Double
* Float
* long double
*
* # Alternative
* Float:
* Decimal-point is always present
* String:
* non-printable characters are handled as \number
*
* Spacing
*
* + Sign
*
* - Alignment
*
* . Precision
*
* * Parameter
* print: use parameter
* scan: no parameter (ignore)
*
* q Quad
*
* Z size_t
*
* w Widechar
*
* ' Thousands/quote
* Numbers:
* Integer part grouped in thousands
* Binary numbers:
* Number grouped in nibbles (4 bits)
* String:
* Quoted string
*
* j intmax_t
* t prtdiff_t
* z size_t
*
* ! Sticky
* @ Parameter (for both print and scan)
*
* I n-bit Integer
* Numbers:
* The following options exists
* I8 = 8-bit integer
* I16 = 16-bit integer
* I32 = 32-bit integer
* I64 = 64-bit integer
*/
#define QUALIFIER_POSITION '$'
#define QUALIFIER_SHORT 'h'
#define QUALIFIER_LONG 'l'
#define QUALIFIER_LONG_UPPER 'L'
#define QUALIFIER_ALTERNATIVE '#'
#define QUALIFIER_SPACE ' '
#define QUALIFIER_PLUS '+'
#define QUALIFIER_MINUS '-'
#define QUALIFIER_DOT '.'
#define QUALIFIER_STAR '*'
#define QUALIFIER_CIRCUMFLEX '^'
#if TRIO_C99
# define QUALIFIER_SIZE_T 'z'
# define QUALIFIER_PTRDIFF_T 't'
# define QUALIFIER_INTMAX_T 'j'
#endif
#if TRIO_BSD || TRIO_GNU
# define QUALIFIER_QUAD 'q'
#endif
#if TRIO_GNU
# define QUALIFIER_SIZE_T_UPPER 'Z'
#endif
#if TRIO_MISC
# define QUALIFIER_WIDECHAR 'w'
#endif
#if TRIO_MICROSOFT
# define QUALIFIER_FIXED_SIZE 'I'
#endif
#if TRIO_EXTENSION
# define QUALIFIER_QUOTE '\''
# define QUALIFIER_STICKY '!'
# define QUALIFIER_VARSIZE '&' /* This should remain undocumented */
# define QUALIFIER_PARAM '@' /* Experimental */
# define QUALIFIER_COLON ':' /* For scanlists */
# define QUALIFIER_EQUAL '=' /* For scanlists */
#endif
/*************************************************************************
* Internal structures
*/
/* Parameters */
typedef struct {
int type;
unsigned long flags;
int width;
int precision;
int base;
int varsize;
int indexAfterSpecifier;
union {
char *string;
#if TRIO_WIDECHAR
wchar_t *wstring;
#endif
void *pointer;
union {
trio_uintmax_t as_signed;
trio_intmax_t as_unsigned;
} number;
double doubleNumber;
double *doublePointer;
long double longdoubleNumber;
long double *longdoublePointer;
int errorNumber;
} data;
/* For the user-defined specifier */
char user_name[MAX_USER_NAME];
char user_data[MAX_USER_DATA];
} parameter_T;
/* General trio "class" */
typedef struct _trio_T {
void *location;
void (*OutStream)(struct _trio_T *, int);
void (*InStream)(struct _trio_T *, int *);
/*
* The number of characters that would have been written/read if
* there had been sufficient space.
*/
int processed;
/*
* The number of characters that are actually written/read.
* Processed and committed with only differ for the *nprintf
* and *nscanf functions.
*/
int committed;
int max;
int current;
} trio_T;
/* References (for user-defined callbacks) */
typedef struct _reference_T {
trio_T *data;
parameter_T *parameter;
} reference_T;
/* Registered entries (for user-defined callbacks) */
typedef struct _userdef_T {
struct _userdef_T *next;
trio_callback_t callback;
char *name;
} userdef_T;
/*************************************************************************
* Internal variables
*/
#if defined(PLATFORM_UNIX)
extern int errno;
#endif
static const char null[] = "(nil)";
#if defined(USE_LOCALE)
static struct lconv *internalLocaleValues = NULL;
#endif
/*
* UNIX98 says "in a locale where the radix character is not defined,
* the radix character defaults to a period (.)"
*/
static char internalDecimalPoint[MAX_LOCALE_SEPARATOR_LENGTH + 1] = ".";
static char internalThousandSeparator[MAX_LOCALE_SEPARATOR_LENGTH + 1] = ",";
static char internalGrouping[MAX_LOCALE_GROUPS] = { (char)NO_GROUPING };
static const char internalDigitsLower[] = "0123456789abcdefghijklmnopqrstuvwxyz";
static const char internalDigitsUpper[] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ";
static BOOLEAN_T internalDigitsUnconverted = TRUE;
static int internalDigitArray[128];
#if TRIO_EXTENSION
static BOOLEAN_T internalCollationUnconverted = TRUE;
static char internalCollationArray[MAX_CHARACTER_CLASS][MAX_CHARACTER_CLASS];
#endif
static volatile trio_callback_t internalEnterCriticalRegion = NULL;
static volatile trio_callback_t internalLeaveCriticalRegion = NULL;
static userdef_T *internalUserDef = NULL;
/*************************************************************************
* trio_strerror [public]
*/
const char *trio_strerror(int errorcode)
{
/* Textual versions of the error codes */
switch (TRIO_ERROR_CODE(errorcode))
{
case TRIO_EOF:
return "End of file";
case TRIO_EINVAL:
return "Invalid argument";
case TRIO_ETOOMANY:
return "Too many arguments";
case TRIO_EDBLREF:
return "Double reference";
case TRIO_EGAP:
return "Reference gap";
case TRIO_ENOMEM:
return "Out of memory";
case TRIO_ERANGE:
return "Invalid range";
default:
return "Unknown";
}
}
/*************************************************************************
* TrioIsQualifier [private]
*
* Description:
* Remember to add all new qualifiers to this function.
* QUALIFIER_POSITION must not be added.
*/
static BOOLEAN_T
TrioIsQualifier(const char ch)
{
/* QUALIFIER_POSITION is not included */
switch (ch)
{
case '0': case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
case QUALIFIER_PLUS:
case QUALIFIER_MINUS:
case QUALIFIER_SPACE:
case QUALIFIER_DOT:
case QUALIFIER_STAR:
case QUALIFIER_ALTERNATIVE:
case QUALIFIER_SHORT:
case QUALIFIER_LONG:
case QUALIFIER_LONG_UPPER:
case QUALIFIER_CIRCUMFLEX:
#if defined(QUALIFIER_SIZE_T)
case QUALIFIER_SIZE_T:
#endif
#if defined(QUALIFIER_PTRDIFF_T)
case QUALIFIER_PTRDIFF_T:
#endif
#if defined(QUALIFIER_INTMAX_T)
case QUALIFIER_INTMAX_T:
#endif
#if defined(QUALIFIER_QUAD)
case QUALIFIER_QUAD:
#endif
#if defined(QUALIFIER_SIZE_T_UPPER)
case QUALIFIER_SIZE_T_UPPER:
#endif
#if defined(QUALIFIER_WIDECHAR)
case QUALIFIER_WIDECHAR:
#endif
#if defined(QUALIFIER_QUOTE)
case QUALIFIER_QUOTE:
#endif
#if defined(QUALIFIER_STICKY)
case QUALIFIER_STICKY:
#endif
#if defined(QUALIFIER_VARSIZE)
case QUALIFIER_VARSIZE:
#endif
#if defined(QUALIFIER_PARAM)
case QUALIFIER_PARAM:
#endif
#if defined(QUALIFIER_FIXED_SIZE)
case QUALIFIER_FIXED_SIZE:
#endif
return TRUE;
default:
return FALSE;
}
}
/*************************************************************************
* TrioGenerateNan [private]
*
* Calculating NaN portably is difficult. Some compilers will emit
* warnings about divide by zero, and others will simply fail to
* generate a NaN.
*/
static double
TrioGenerateNaN(void)
{
#if defined(TRIO_COMPILER_SUPPORTS_C99)
return nan(NULL);
#elif defined(DBL_QNAN)
return DBL_QNAN;
#elif defined(PLATFORM_UNIX)
double value;
void (*signal_handler)(int);
signal_handler = signal(SIGFPE, SIG_IGN);
value = 0.0 / 0.0;
signal(SIGFPE, signal_handler);
return value;
#else
return 0.0 / 0.0;
#endif
}
/*************************************************************************
* TrioIsNan [private]
*/
static int
TrioIsNan(double number)
{
#ifdef isnan
/* C99 defines isnan() as a macro */
return isnan(number);
#else
double integral, fraction;
return (/* NaN is the only number which does not compare to itself */
(number != number) ||
/* Fallback solution if NaN compares to NaN */
((number != 0.0) &&
(fraction = modf(number, &integral),
integral == fraction)));
#endif
}
/*************************************************************************
* TrioIsInfinite [private]
*/
static int
TrioIsInfinite(double number)
{
#ifdef isinf
/* C99 defines isinf() as a macro */
return isinf(number);
#else
return ((number == HUGE_VAL) ? 1 : ((number == -HUGE_VAL) ? -1 : 0));
#endif
}
/*************************************************************************
* TrioSetLocale [private]
*/
#if defined(USE_LOCALE)
static void
TrioSetLocale(void)
{
internalLocaleValues = (struct lconv *)localeconv();
if (internalLocaleValues)
{
if ((internalLocaleValues->decimal_point) &&
(internalLocaleValues->decimal_point[0] != NIL))
{
StrCopyMax(internalDecimalPoint,
sizeof(internalDecimalPoint),
internalLocaleValues->decimal_point);
}
if ((internalLocaleValues->thousands_sep) &&
(internalLocaleValues->thousands_sep[0] != NIL))
{
StrCopyMax(internalThousandSeparator,
sizeof(internalThousandSeparator),
internalLocaleValues->thousands_sep);
}
if ((internalLocaleValues->grouping) &&
(internalLocaleValues->grouping[0] != NIL))
{
StrCopyMax(internalGrouping,
sizeof(internalGrouping),
internalLocaleValues->grouping);
}
}
}
#endif /* defined(USE_LOCALE) */
/*************************************************************************
* TrioGetPosition [private]
*
* Get the %n$ position.
*/
static int
TrioGetPosition(const char *format,
int *indexPointer)
{
char *tmpformat;
int number = 0;
int index = *indexPointer;
number = (int)StrToLong(&format[index], &tmpformat, BASE_DECIMAL);
index = (int)(tmpformat - format);
if ((number != 0) && (QUALIFIER_POSITION == format[index++]))
{
*indexPointer = index;
/*
* number is decreased by 1, because n$ starts from 1, whereas
* the array it is indexing starts from 0.
*/
return number - 1;
}
return NO_POSITION;
}
/*************************************************************************
* TrioFindNamespace [private]
*
* Find registered user-defined specifier.
* The prev argument is used for optimisation only.
*/
static userdef_T *
TrioFindNamespace(const char *name, userdef_T **prev)
{
userdef_T *def;
if (internalEnterCriticalRegion)
(void)internalEnterCriticalRegion(NULL);
for (def = internalUserDef; def; def = def->next)
{
/* Case-sensitive string comparison */
if (StrEqualCase(def->name, name))
break;
if (prev)
*prev = def;
}
if (internalLeaveCriticalRegion)
(void)internalLeaveCriticalRegion(NULL);
return def;
}
/*************************************************************************
* TrioPreprocess [private]
*
* Description:
* Parse the format string
*/
static int
TrioPreprocess(int type,
const char *format,
parameter_T *parameters,
va_list arglist,
void **argarray)
{
#if TRIO_ERRORS
/* Count the number of times a parameter is referenced */
unsigned short usedEntries[MAX_PARAMETERS];
#endif
/* Parameter counters */
int parameterPosition;
int currentParam;
int maxParam = -1;
/* Utility variables */
unsigned long flags;
int width;
int precision;
int varsize;
int base;
int index; /* Index into formatting string */
int dots; /* Count number of dots in modifier part */
BOOLEAN_T positional; /* Does the specifier have a positional? */
BOOLEAN_T got_sticky = FALSE; /* Are there any sticky modifiers at all? */
/*
* indices specifies the order in which the parameters must be
* read from the va_args (this is necessary to handle positionals)
*/
int indices[MAX_PARAMETERS];
int pos = 0;
/* Various variables */
char ch;
int charlen;
int i = -1;
int num;
char *tmpformat;
#if TRIO_ERRORS
/*
* The 'parameters' array is not initialized, but we need to
* know which entries we have used.
*/
memset(usedEntries, 0, sizeof(usedEntries));
#endif
index = 0;
parameterPosition = 0;
#if defined(TRIO_COMPILER_SUPPORTS_MULTIBYTE)
mblen(NULL, 0);
#endif
while (format[index])
{
#if defined(TRIO_COMPILER_SUPPORTS_MULTIBYTE)
if (! isascii(format[index]))
{
/*
* Multibyte characters cannot be legal specifiers or
* modifiers, so we skip over them.
*/
charlen = mblen(&format[index], MB_LEN_MAX);
index += (charlen > 0) ? charlen : 1;
continue; /* while */
}
#endif /* TRIO_COMPILER_SUPPORTS_MULTIBYTE */
if (CHAR_IDENTIFIER == format[index++])
{
if (CHAR_IDENTIFIER == format[index])
{
index++;
continue; /* while */
}
flags = FLAGS_NEW;
dots = 0;
currentParam = TrioGetPosition(format, &index);
positional = (NO_POSITION != currentParam);
if (!positional)
{
/* We have no positional, get the next counter */
currentParam = parameterPosition;
}
if(currentParam >= MAX_PARAMETERS)
{
/* Bail out completely to make the error more obvious */
return TRIO_ERROR_RETURN(TRIO_ETOOMANY, index);
}
if (currentParam > maxParam)
maxParam = currentParam;
/* Default values */
width = NO_WIDTH;
precision = NO_PRECISION;
base = NO_BASE;
varsize = NO_SIZE;
while (TrioIsQualifier(format[index]))
{
ch = format[index++];
switch (ch)
{
case QUALIFIER_SPACE:
flags |= FLAGS_SPACE;
break;
case QUALIFIER_PLUS:
flags |= FLAGS_SHOWSIGN;
break;
case QUALIFIER_MINUS:
flags |= FLAGS_LEFTADJUST;
flags &= ~FLAGS_NILPADDING;
break;
case QUALIFIER_ALTERNATIVE:
flags |= FLAGS_ALTERNATIVE;
break;
case QUALIFIER_DOT:
if (dots == 0) /* Precision */
{
dots++;
/* Skip if no precision */
if (QUALIFIER_DOT == format[index])
break;
/* After the first dot we have the precision */
flags |= FLAGS_PRECISION;
if ((QUALIFIER_STAR == format[index]) ||
(QUALIFIER_PARAM == format[index]))
{
index++;
flags |= FLAGS_PRECISION_PARAMETER;
precision = TrioGetPosition(format, &index);
if (precision == NO_POSITION)
{
parameterPosition++;
if (positional)
precision = parameterPosition;
else
{
precision = currentParam;
currentParam = precision + 1;
}
}
else
{
if (! positional)
currentParam = precision + 1;
if (width > maxParam)
maxParam = precision;
}
if (currentParam > maxParam)
maxParam = currentParam;
}
else
{
precision = StrToLong(&format[index], &tmpformat, BASE_DECIMAL);
index = (int)(tmpformat - format);
}
}
else if (dots == 1) /* Base */
{
dots++;
/* After the second dot we have the base */
flags |= FLAGS_BASE;
if ((QUALIFIER_STAR == format[index]) ||
(QUALIFIER_PARAM == format[index]))
{
index++;
flags |= FLAGS_BASE_PARAMETER;
base = TrioGetPosition(format, &index);
if (base == NO_POSITION)
{
parameterPosition++;
if (positional)
base = parameterPosition;
else
{
base = currentParam;
currentParam = base + 1;
}
}
else
{
if (! positional)
currentParam = base + 1;
if (base > maxParam)
maxParam = base;
}
if (currentParam > maxParam)
maxParam = currentParam;
}
else
{
base = StrToLong(&format[index], &tmpformat, BASE_DECIMAL);
if (base > MAX_BASE)
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
index = (int)(tmpformat - format);
}
}
else
{
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
}
break; /* QUALIFIER_DOT */
case QUALIFIER_PARAM:
type = TYPE_PRINT;
/* FALLTHROUGH */
case QUALIFIER_STAR:
/* This has different meanings for print and scan */
if (TYPE_PRINT == type)
{
/* Read with from parameter */
flags |= (FLAGS_WIDTH | FLAGS_WIDTH_PARAMETER);
width = TrioGetPosition(format, &index);
if (width == NO_POSITION)
{
parameterPosition++;
if (positional)
width = parameterPosition;
else
{
width = currentParam;
currentParam = width + 1;
}
}
else
{
if (! positional)
currentParam = width + 1;
if (width > maxParam)
maxParam = width;
}
if (currentParam > maxParam)
maxParam = currentParam;
}
else
{
/* Scan, but do not store result */
flags |= FLAGS_IGNORE;
}
break; /* QUALIFIER_STAR */
case '0':
if (! (flags & FLAGS_LEFTADJUST))
flags |= FLAGS_NILPADDING;
/* FALLTHROUGH */
case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
flags |= FLAGS_WIDTH;
/* &format[index - 1] is used to "rewind" the read
* character from format
*/
width = StrToLong(&format[index - 1], &tmpformat, BASE_DECIMAL);
index = (int)(tmpformat - format);
break;
case QUALIFIER_SHORT:
if (flags & FLAGS_SHORTSHORT)
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
else if (flags & FLAGS_SHORT)
flags |= FLAGS_SHORTSHORT;
else
flags |= FLAGS_SHORT;
break;
case QUALIFIER_LONG:
if (flags & FLAGS_QUAD)
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
else if (flags & FLAGS_LONG)
flags |= FLAGS_QUAD;
else
flags |= FLAGS_LONG;
break;
case QUALIFIER_LONG_UPPER:
flags |= FLAGS_LONGDOUBLE;
break;
#if defined(QUALIFIER_SIZE_T)
case QUALIFIER_SIZE_T:
flags |= FLAGS_SIZE_T;
/* Modify flags for later truncation of number */
if (sizeof(size_t) == sizeof(trio_ulonglong_t))
flags |= FLAGS_QUAD;
else if (sizeof(size_t) == sizeof(long))
flags |= FLAGS_LONG;
break;
#endif
#if defined(QUALIFIER_PTRDIFF_T)
case QUALIFIER_PTRDIFF_T:
flags |= FLAGS_PTRDIFF_T;
if (sizeof(ptrdiff_t) == sizeof(trio_ulonglong_t))
flags |= FLAGS_QUAD;
else if (sizeof(ptrdiff_t) == sizeof(long))
flags |= FLAGS_LONG;
break;
#endif
#if defined(QUALIFIER_INTMAX_T)
case QUALIFIER_INTMAX_T:
flags |= FLAGS_INTMAX_T;
if (sizeof(trio_intmax_t) == sizeof(trio_ulonglong_t))
flags |= FLAGS_QUAD;
else if (sizeof(trio_intmax_t) == sizeof(long))
flags |= FLAGS_LONG;
break;
#endif
#if defined(QUALIFIER_QUAD)
case QUALIFIER_QUAD:
flags |= FLAGS_QUAD;
break;
#endif
#if defined(QUALIFIER_FIXED_SIZE)
case QUALIFIER_FIXED_SIZE:
if (flags & FLAGS_FIXED_SIZE)
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
if (flags & (FLAGS_ALL_SIZES | FLAGS_LONGDOUBLE |
FLAGS_WIDECHAR | FLAGS_VARSIZE_PARAMETER))
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
if ((format[index] == '6') &&
(format[index + 1] == '4'))
{
varsize = sizeof(trio_int64_t);
index += 2;
}
else if ((format[index] == '3') &&
(format[index + 1] == '2'))
{
varsize = sizeof(trio_int32_t);
index += 2;
}
else if ((format[index] == '1') &&
(format[index + 1] == '6'))
{
varsize = sizeof(trio_int16_t);
index += 2;
}
else if (format[index] == '8')
{
varsize = sizeof(trio_int8_t);
index++;
}
else
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
flags |= FLAGS_FIXED_SIZE;
break;
#endif
#if defined(QUALIFIER_WIDECHAR)
case QUALIFIER_WIDECHAR:
flags |= FLAGS_WIDECHAR;
break;
#endif
#if defined(QUALIFIER_SIZE_T_UPPER)
case QUALIFIER_SIZE_T_UPPER:
break;
#endif
#if defined(QUALIFIER_QUOTE)
case QUALIFIER_QUOTE:
flags |= FLAGS_QUOTE;
break;
#endif
#if defined(QUALIFIER_STICKY)
case QUALIFIER_STICKY:
flags |= FLAGS_STICKY;
got_sticky = TRUE;
break;
#endif
#if defined(QUALIFIER_VARSIZE)
case QUALIFIER_VARSIZE:
flags |= FLAGS_VARSIZE_PARAMETER;
parameterPosition++;
if (positional)
varsize = parameterPosition;
else
{
varsize = currentParam;
currentParam = varsize + 1;
}
if (currentParam > maxParam)
maxParam = currentParam;
break;
#endif
default:
/* Bail out completely to make the error more obvious */
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
}
} /* while qualifier */
/*
* Parameters only need the type and value. The value is
* read later.
*/
if (flags & FLAGS_WIDTH_PARAMETER)
{
#if TRIO_ERRORS
usedEntries[width] += 1;
#endif
parameters[pos].type = FORMAT_PARAMETER;
indices[width] = pos;
width = pos++;
}
if (flags & FLAGS_PRECISION_PARAMETER)
{
#if TRIO_ERRORS
usedEntries[precision] += 1;
#endif
parameters[pos].type = FORMAT_PARAMETER;
indices[precision] = pos;
precision = pos++;
}
if (flags & FLAGS_BASE_PARAMETER)
{
#if TRIO_ERRORS
usedEntries[base] += 1;
#endif
parameters[pos].type = FORMAT_PARAMETER;
indices[base] = pos;
base = pos++;
}
if (flags & FLAGS_VARSIZE_PARAMETER)
{
#if TRIO_ERRORS
usedEntries[varsize] += 1;
#endif
parameters[pos].type = FORMAT_PARAMETER;
indices[varsize] = pos;
varsize = pos++;
}
indices[currentParam] = pos;
switch (format[index++])
{
#if defined(SPECIFIER_CHAR_UPPER)
case SPECIFIER_CHAR_UPPER:
flags |= FLAGS_WIDECHAR;
/* FALLTHROUGH */
#endif
case SPECIFIER_CHAR:
if (flags & FLAGS_LONG)
flags |= FLAGS_WIDECHAR;
else if (flags & FLAGS_SHORT)
flags &= ~FLAGS_WIDECHAR;
parameters[pos].type = FORMAT_CHAR;
break;
#if defined(SPECIFIER_STRING_UPPER)
case SPECIFIER_STRING_UPPER:
flags |= FLAGS_WIDECHAR;
/* FALLTHROUGH */
#endif
case SPECIFIER_STRING:
if (flags & FLAGS_LONG)
flags |= FLAGS_WIDECHAR;
else if (flags & FLAGS_SHORT)
flags &= ~FLAGS_WIDECHAR;
parameters[pos].type = FORMAT_STRING;
break;
case SPECIFIER_GROUP:
if (TYPE_SCAN == type)
{
int depth = 1;
parameters[pos].type = FORMAT_GROUP;
if (format[index] == QUALIFIER_CIRCUMFLEX)
index++;
if (format[index] == SPECIFIER_UNGROUP)
index++;
if (format[index] == QUALIFIER_MINUS)
index++;
/* Skip nested brackets */
while (format[index] != NIL)
{
if (format[index] == SPECIFIER_GROUP)
{
depth++;
}
else if (format[index] == SPECIFIER_UNGROUP)
{
if (--depth <= 0)
{
index++;
break;
}
}
index++;
}
}
break;
case SPECIFIER_INTEGER:
parameters[pos].type = FORMAT_INT;
break;
case SPECIFIER_UNSIGNED:
flags |= FLAGS_UNSIGNED;
parameters[pos].type = FORMAT_INT;
break;
case SPECIFIER_DECIMAL:
/* Disable base modifier */
flags &= ~FLAGS_BASE_PARAMETER;
base = BASE_DECIMAL;
parameters[pos].type = FORMAT_INT;
break;
case SPECIFIER_OCTAL:
flags &= ~FLAGS_BASE_PARAMETER;
base = BASE_OCTAL;
parameters[pos].type = FORMAT_INT;
break;
#if defined(SPECIFIER_BINARY)
case SPECIFIER_BINARY_UPPER:
flags |= FLAGS_UPPER;
/* FALLTHROUGH */
case SPECIFIER_BINARY:
flags |= FLAGS_NILPADDING;
flags &= ~FLAGS_BASE_PARAMETER;
base = BASE_BINARY;
parameters[pos].type = FORMAT_INT;
break;
#endif
case SPECIFIER_HEX_UPPER:
flags |= FLAGS_UPPER;
/* FALLTHROUGH */
case SPECIFIER_HEX:
flags |= FLAGS_UNSIGNED;
flags &= ~FLAGS_BASE_PARAMETER;
base = BASE_HEX;
parameters[pos].type = FORMAT_INT;
break;
case SPECIFIER_FLOAT_E_UPPER:
flags |= FLAGS_UPPER;
/* FALLTHROUGH */
case SPECIFIER_FLOAT_E:
flags |= FLAGS_FLOAT_E;
parameters[pos].type = FORMAT_DOUBLE;
break;
case SPECIFIER_FLOAT_G_UPPER:
flags |= FLAGS_UPPER;
/* FALLTHROUGH */
case SPECIFIER_FLOAT_G:
flags |= FLAGS_FLOAT_G;
parameters[pos].type = FORMAT_DOUBLE;
break;
case SPECIFIER_FLOAT_F_UPPER:
flags |= FLAGS_UPPER;
/* FALLTHROUGH */
case SPECIFIER_FLOAT_F:
parameters[pos].type = FORMAT_DOUBLE;
break;
case SPECIFIER_POINTER:
parameters[pos].type = FORMAT_POINTER;
break;
case SPECIFIER_COUNT:
parameters[pos].type = FORMAT_COUNT;
break;
#if defined(SPECIFIER_HEXFLOAT)
# if defined(SPECIFIER_HEXFLOAT_UPPER)
case SPECIFIER_HEXFLOAT_UPPER:
flags |= FLAGS_UPPER;
/* FALLTHROUGH */
# endif
case SPECIFIER_HEXFLOAT:
base = BASE_HEX;
parameters[pos].type = FORMAT_DOUBLE;
break;
#endif
#if defined(FORMAT_ERRNO)
case SPECIFIER_ERRNO:
parameters[pos].type = FORMAT_ERRNO;
break;
#endif
#if defined(SPECIFIER_USER_DEFINED_BEGIN)
case SPECIFIER_USER_DEFINED_BEGIN:
{
unsigned int max;
int without_namespace = TRUE;
parameters[pos].type = FORMAT_USER_DEFINED;
parameters[pos].user_name[0] = NIL;
tmpformat = (char *)&format[index];
while ((ch = format[index]))
{
index++;
if (ch == SPECIFIER_USER_DEFINED_END)
{
if (without_namespace)
{
/* We must get the handle first */
parameters[pos].type = FORMAT_PARAMETER;
parameters[pos].indexAfterSpecifier = index;
parameters[pos].flags = FLAGS_USER_DEFINED;
/* Adjust parameters for insertion of new one */
pos++;
# if TRIO_ERRORS
usedEntries[currentParam] += 1;
# endif
parameters[pos].type = FORMAT_USER_DEFINED;
currentParam++;
indices[currentParam] = pos;
if (currentParam > maxParam)
maxParam = currentParam;
}
/* Copy the user data */
max = (unsigned int)(&format[index] - tmpformat);
if (max > MAX_USER_DATA)
max = MAX_USER_DATA;
StrCopyMax(parameters[pos].user_data,
max,
tmpformat);
break; /* while */
}
if (ch == SPECIFIER_USER_DEFINED_SEPARATOR)
{
without_namespace = FALSE;
/* Copy the namespace for later looking-up */
max = (int)(&format[index] - tmpformat);
if (max > MAX_USER_NAME)
max = MAX_USER_NAME;
StrCopyMax(parameters[pos].user_name,
max,
tmpformat);
tmpformat = (char *)&format[index];
}
}
if (ch != SPECIFIER_USER_DEFINED_END)
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
}
break;
#endif /* defined(SPECIFIER_USER_DEFINED_BEGIN) */
default:
/* Bail out completely to make the error more obvious */
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
}
#if TRIO_ERRORS
/* Count the number of times this entry has been used */
usedEntries[currentParam] += 1;
#endif
/* Find last sticky parameters */
if (got_sticky && !(flags & FLAGS_STICKY))
{
for (i = pos - 1; i >= 0; i--)
{
if (parameters[i].type == FORMAT_PARAMETER)
continue;
if ((parameters[i].flags & FLAGS_STICKY) &&
(parameters[i].type == parameters[pos].type))
{
/* Do not overwrite current qualifiers */
flags |= (parameters[i].flags & (unsigned long)~FLAGS_STICKY);
if (width == NO_WIDTH)
width = parameters[i].width;
if (precision == NO_PRECISION)
precision = parameters[i].precision;
if (base == NO_BASE)
base = parameters[i].base;
break;
}
}
}
parameters[pos].indexAfterSpecifier = index;
parameters[pos].flags = flags;
parameters[pos].width = width;
parameters[pos].precision = precision;
parameters[pos].base = (base == NO_BASE) ? BASE_DECIMAL : base;
parameters[pos].varsize = varsize;
pos++;
if (! positional)
parameterPosition++;
} /* if identifier */
} /* while format characters left */
for (num = 0; num <= maxParam; num++)
{
#if TRIO_ERRORS
if (usedEntries[num] != 1)
{
if (usedEntries[num] == 0) /* gap detected */
return TRIO_ERROR_RETURN(TRIO_EGAP, num);
else /* double references detected */
return TRIO_ERROR_RETURN(TRIO_EDBLREF, num);
}
#endif
i = indices[num];
/*
* FORMAT_PARAMETERS are only present if they must be read,
* so it makes no sense to check the ignore flag (besides,
* the flags variable is not set for that particular type)
*/
if ((parameters[i].type != FORMAT_PARAMETER) &&
(parameters[i].flags & FLAGS_IGNORE))
continue; /* for all arguments */
/*
* The stack arguments are read according to ANSI C89
* default argument promotions:
*
* char = int
* short = int
* unsigned char = unsigned int
* unsigned short = unsigned int
* float = double
*
* In addition to the ANSI C89 these types are read (the
* default argument promotions of C99 has not been
* considered yet)
*
* long long
* long double
* size_t
* ptrdiff_t
* intmax_t
*/
switch (parameters[i].type)
{
case FORMAT_GROUP:
case FORMAT_STRING:
#if TRIO_WIDECHAR
if (flags & FLAGS_WIDECHAR)
{
parameters[i].data.wstring = (argarray == NULL)
? va_arg(arglist, wchar_t *)
: (wchar_t *)(argarray[num]);
}
else
#endif
{
parameters[i].data.string = (argarray == NULL)
? va_arg(arglist, char *)
: (char *)(argarray[num]);
}
break;
case FORMAT_POINTER:
case FORMAT_COUNT:
case FORMAT_USER_DEFINED:
case FORMAT_UNKNOWN:
parameters[i].data.pointer = (argarray == NULL)
? va_arg(arglist, void *)
: argarray[num];
break;
case FORMAT_CHAR:
case FORMAT_INT:
if (TYPE_SCAN == type)
{
if (argarray == NULL)
parameters[i].data.pointer =
(trio_uintmax_t *)va_arg(arglist, void *);
else
{
if (parameters[i].type == FORMAT_CHAR)
parameters[i].data.pointer =
(trio_uintmax_t *)((char *)argarray[num]);
else if (parameters[i].flags & FLAGS_SHORT)
parameters[i].data.pointer =
(trio_uintmax_t *)((short *)argarray[num]);
else
parameters[i].data.pointer =
(trio_uintmax_t *)((int *)argarray[num]);
}
}
else
{
#if defined(QUALIFIER_VARSIZE) || defined(QUALIFIER_FIXED_SIZE)
if ((parameters[i].flags & FLAGS_VARSIZE_PARAMETER) ||
(parameters[i].flags & FLAGS_FIXED_SIZE))
{
if (parameters[i].flags & FLAGS_VARSIZE_PARAMETER)
{
/*
* Variable sizes are mapped onto the fixed sizes, in
* accordance with integer promotion.
*
* Please note that this may not be portable, as we
* only guess the size, not the layout of the numbers.
* For example, if int is little-endian, and long is
* big-endian, then this will fail.
*/
varsize = (int)parameters[parameters[i].varsize].data.number.as_unsigned;
}
else
{
/* Used for the I<bits> modifiers */
varsize = parameters[i].varsize;
}
parameters[i].flags &= ~FLAGS_ALL_VARSIZES;
if (varsize <= (int)sizeof(int))
;
else if (varsize <= (int)sizeof(long))
parameters[i].flags |= FLAGS_LONG;
#if defined(QUALIFIER_INTMAX_T)
else if (varsize <= (int)sizeof(trio_longlong_t))
parameters[i].flags |= FLAGS_QUAD;
else
parameters[i].flags |= FLAGS_INTMAX_T;
#else
else
parameters[i].flags |= FLAGS_QUAD;
#endif
}
#endif /* defined(QUALIFIER_VARSIZE) */
#if defined(QUALIFIER_SIZE_T) || defined(QUALIFIER_SIZE_T_UPPER)
if (parameters[i].flags & FLAGS_SIZE_T)
parameters[i].data.number.as_unsigned = (argarray == NULL)
? (trio_uintmax_t)va_arg(arglist, size_t)
: (trio_uintmax_t)(*((size_t *)argarray[num]));
else
#endif
#if defined(QUALIFIER_PTRDIFF_T)
if (parameters[i].flags & FLAGS_PTRDIFF_T)
parameters[i].data.number.as_unsigned = (argarray == NULL)
? (trio_uintmax_t)va_arg(arglist, ptrdiff_t)
: (trio_uintmax_t)(*((ptrdiff_t *)argarray[num]));
else
#endif
#if defined(QUALIFIER_INTMAX_T)
if (parameters[i].flags & FLAGS_INTMAX_T)
parameters[i].data.number.as_unsigned = (argarray == NULL)
? (trio_uintmax_t)va_arg(arglist, trio_intmax_t)
: (trio_uintmax_t)(*((trio_intmax_t *)argarray[num]));
else
#endif
if (parameters[i].flags & FLAGS_QUAD)
parameters[i].data.number.as_unsigned = (argarray == NULL)
? (trio_uintmax_t)va_arg(arglist, trio_ulonglong_t)
: (trio_uintmax_t)(*((trio_ulonglong_t *)argarray[num]));
else if (parameters[i].flags & FLAGS_LONG)
parameters[i].data.number.as_unsigned = (argarray == NULL)
? (trio_uintmax_t)va_arg(arglist, long)
: (trio_uintmax_t)(*((long *)argarray[num]));
else
{
if (argarray == NULL)
parameters[i].data.number.as_unsigned = (trio_uintmax_t)va_arg(arglist, int);
else
{
if (parameters[i].type == FORMAT_CHAR)
parameters[i].data.number.as_unsigned = (trio_uintmax_t)(*((char *)argarray[num]));
else if (parameters[i].flags & FLAGS_SHORT)
parameters[i].data.number.as_unsigned = (trio_uintmax_t)(*((short *)argarray[num]));
else
parameters[i].data.number.as_unsigned = (trio_uintmax_t)(*((int *)argarray[num]));
}
}
}
break;
case FORMAT_PARAMETER:
/*
* The parameter for the user-defined specifier is a pointer,
* whereas the rest (width, precision, base) uses an integer.
*/
if (parameters[i].flags & FLAGS_USER_DEFINED)
parameters[i].data.pointer = (argarray == NULL)
? va_arg(arglist, void *)
: argarray[num];
else
parameters[i].data.number.as_unsigned = (argarray == NULL)
? (trio_uintmax_t)va_arg(arglist, int)
: (trio_uintmax_t)(*((int *)argarray[num]));
break;
case FORMAT_DOUBLE:
if (TYPE_SCAN == type)
{
if (parameters[i].flags & FLAGS_LONG)
parameters[i].data.longdoublePointer = (argarray == NULL)
? va_arg(arglist, long double *)
: (long double *)((long double *)argarray[num]);
else
{
if (argarray == NULL)
parameters[i].data.doublePointer =
va_arg(arglist, double *);
else
{
if (parameters[i].flags & FLAGS_SHORT)
parameters[i].data.doublePointer =
(double *)((float *)argarray[num]);
else
parameters[i].data.doublePointer =
(double *)((double *)argarray[num]);
}
}
}
else
{
if (parameters[i].flags & FLAGS_LONG)
parameters[i].data.longdoubleNumber = (argarray == NULL)
? va_arg(arglist, long double)
: (long double)(*((long double *)argarray[num]));
else
{
if (argarray == NULL)
parameters[i].data.longdoubleNumber = (long double)va_arg(arglist, double);
else
{
if (parameters[i].flags & FLAGS_SHORT)
parameters[i].data.longdoubleNumber = (long double)(*((float *)argarray[num]));
else
parameters[i].data.longdoubleNumber = (long double)(long double)(*((double *)argarray[num]));
}
}
}
break;
#if defined(FORMAT_ERRNO)
case FORMAT_ERRNO:
parameters[i].data.errorNumber = errno;
break;
#endif
default:
break;
}
} /* for all specifiers */
return num;
}
/*************************************************************************
*
* @FORMATTING
*
************************************************************************/
/*************************************************************************
* TrioWriteNumber [private]
*
* Description:
* Output a number.
* The complexity of this function is a result of the complexity
* of the dependencies of the flags.
*/
static void
TrioWriteNumber(trio_T *self,
trio_uintmax_t number,
unsigned long flags,
int width,
int precision,
int base)
{
BOOLEAN_T isNegative;
char buffer[MAX_CHARS_IN(trio_uintmax_t) * (1 + MAX_LOCALE_SEPARATOR_LENGTH) + 1];
char *bufferend;
char *pointer;
const char *digits;
int i;
int length;
char *p;
int charsPerThousand;
int groupingIndex;
int count;
assert(VALID(self));
assert(VALID(self->OutStream));
assert((base >= MIN_BASE && base <= MAX_BASE) || (base == NO_BASE));
digits = (flags & FLAGS_UPPER) ? internalDigitsUpper : internalDigitsLower;
isNegative = (flags & FLAGS_UNSIGNED)
? FALSE
: ((trio_intmax_t)number < 0);
if (isNegative)
number = -number;
if (flags & FLAGS_QUAD)
number &= (trio_ulonglong_t)-1;
else if (flags & FLAGS_LONG)
number &= (unsigned long)-1;
else
number &= (unsigned int)-1;
/* Build number */
pointer = bufferend = &buffer[sizeof(buffer) - 1];
*pointer-- = NIL;
charsPerThousand = (int)internalGrouping[0];
groupingIndex = 1;
for (i = 1; i < (int)sizeof(buffer); i++)
{
*pointer-- = digits[number % base];
number /= base;
if (number == 0)
break;
if ((flags & FLAGS_QUOTE)
&& (charsPerThousand != NO_GROUPING)
&& (i % charsPerThousand == 0))
{
/*
* We are building the number from the least significant
* to the most significant digit, so we have to copy the
* thousand separator backwards
*/
length = StrLength(internalThousandSeparator);
if (((int)(pointer - buffer) - length) > 0)
{
p = &internalThousandSeparator[length - 1];
while (length-- > 0)
*pointer-- = *p--;
}
/* Advance to next grouping number */
switch (internalGrouping[groupingIndex])
{
case CHAR_MAX: /* Disable grouping */
charsPerThousand = NO_GROUPING;
break;
case 0: /* Repeat last group */
break;
default:
charsPerThousand = (int)internalGrouping[groupingIndex++];
break;
}
}
}
/* Adjust width */
width -= (bufferend - pointer) - 1;
/* Adjust precision */
if (NO_PRECISION != precision)
{
precision -= (bufferend - pointer) - 1;
if (precision < 0)
precision = 0;
flags |= FLAGS_NILPADDING;
}
/* Adjust width further */
if (isNegative || (flags & FLAGS_SHOWSIGN) || (flags & FLAGS_SPACE))
width--;
if (flags & FLAGS_ALTERNATIVE)
{
switch (base)
{
case BASE_BINARY:
case BASE_HEX:
width -= 2;
break;
case BASE_OCTAL:
width--;
break;
default:
break;
}
}
/* Output prefixes spaces if needed */
if (! ((flags & FLAGS_LEFTADJUST) ||
((flags & FLAGS_NILPADDING) && (precision == NO_PRECISION))))
{
count = (precision == NO_PRECISION) ? 0 : precision;
while (width-- > count)
self->OutStream(self, CHAR_ADJUST);
}
/* width has been adjusted for signs and alternatives */
if (isNegative)
self->OutStream(self, '-');
else if (flags & FLAGS_SHOWSIGN)
self->OutStream(self, '+');
else if (flags & FLAGS_SPACE)
self->OutStream(self, ' ');
if (flags & FLAGS_ALTERNATIVE)
{
switch (base)
{
case BASE_BINARY:
self->OutStream(self, '0');
self->OutStream(self, (flags & FLAGS_UPPER) ? 'B' : 'b');
break;
case BASE_OCTAL:
self->OutStream(self, '0');
break;
case BASE_HEX:
self->OutStream(self, '0');
self->OutStream(self, (flags & FLAGS_UPPER) ? 'X' : 'x');
break;
default:
break;
} /* switch base */
}
/* Output prefixed zero padding if needed */
if (flags & FLAGS_NILPADDING)
{
if (precision == NO_PRECISION)
precision = width;
while (precision-- > 0)
{
self->OutStream(self, '0');
width--;
}
}
/* Output the number itself */
while (*(++pointer))
{
self->OutStream(self, *pointer);
}
/* Output trailing spaces if needed */
if (flags & FLAGS_LEFTADJUST)
{
while (width-- > 0)
self->OutStream(self, CHAR_ADJUST);
}
}
/*************************************************************************
* TrioWriteStringCharacter [private]
*
* Description:
* Output a single character of a string
*/
static void
TrioWriteStringCharacter(trio_T *self,
int ch,
unsigned long flags)
{
if (flags & FLAGS_ALTERNATIVE)
{
if (! (isprint(ch) || isspace(ch)))
{
/*
* Non-printable characters are converted to C escapes or
* \number, if no C escape exists.
*/
self->OutStream(self, CHAR_BACKSLASH);
switch (ch)
{
case '\007': self->OutStream(self, 'a'); break;
case '\b': self->OutStream(self, 'b'); break;
case '\f': self->OutStream(self, 'f'); break;
case '\n': self->OutStream(self, 'n'); break;
case '\r': self->OutStream(self, 'r'); break;
case '\t': self->OutStream(self, 't'); break;
case '\v': self->OutStream(self, 'v'); break;
case '\\': self->OutStream(self, '\\'); break;
default:
self->OutStream(self, 'x');
TrioWriteNumber(self, (trio_intmax_t)ch,
FLAGS_UNSIGNED | FLAGS_NILPADDING,
2, 2, BASE_HEX);
break;
}
}
else if (ch == CHAR_BACKSLASH)
{
self->OutStream(self, CHAR_BACKSLASH);
self->OutStream(self, CHAR_BACKSLASH);
}
else
{
self->OutStream(self, ch);
}
}
else
{
self->OutStream(self, ch);
}
}
/*************************************************************************
* TrioWriteString [private]
*
* Description:
* Output a string
*/
static void
TrioWriteString(trio_T *self,
const char *string,
unsigned long flags,
int width,
int precision)
{
int length;
int ch;
assert(VALID(self));
assert(VALID(self->OutStream));
if (string == NULL)
{
string = null;
length = sizeof(null) - 1;
/* Disable quoting for the null pointer */
flags &= (~FLAGS_QUOTE);
width = 0;
}
else
{
length = StrLength(string);
}
if ((NO_PRECISION != precision) &&
(precision < length))
{
length = precision;
}
width -= length;
if (flags & FLAGS_QUOTE)
self->OutStream(self, CHAR_QUOTE);
if (! (flags & FLAGS_LEFTADJUST))
{
while (width-- > 0)
self->OutStream(self, CHAR_ADJUST);
}
while (length-- > 0)
{
/* The ctype parameters must be an unsigned char (or EOF) */
ch = (int)((unsigned char)(*string++));
TrioWriteStringCharacter(self, ch, flags);
}
if (flags & FLAGS_LEFTADJUST)
{
while (width-- > 0)
self->OutStream(self, CHAR_ADJUST);
}
if (flags & FLAGS_QUOTE)
self->OutStream(self, CHAR_QUOTE);
}
/*************************************************************************
* TrioWriteWideStringCharacter [private]
*
* Description:
* Output a wide string as a multi-byte sequence
*/
#if TRIO_WIDECHAR
static int
TrioWriteWideStringCharacter(trio_T *self,
wchar_t wch,
unsigned long flags,
int width)
{
int size;
int i;
int ch;
char *string;
char buffer[MB_LEN_MAX + 1];
if (width == NO_WIDTH)
width = sizeof(buffer);
size = wctomb(buffer, wch);
if ((size <= 0) || (size > width) || (buffer[0] == NIL))
return 0;
string = buffer;
i = size;
while ((width >= i) && (width-- > 0) && (i-- > 0))
{
/* The ctype parameters must be an unsigned char (or EOF) */
ch = (int)((unsigned char)(*string++));
TrioWriteStringCharacter(self, ch, flags);
}
return size;
}
#endif /* TRIO_WIDECHAR */
/*************************************************************************
* TrioWriteString [private]
*
* Description:
* Output a wide character string as a multi-byte string
*/
#if TRIO_WIDECHAR
static void
TrioWriteWideString(trio_T *self,
const wchar_t *wstring,
unsigned long flags,
int width,
int precision)
{
int length;
int size;
assert(VALID(self));
assert(VALID(self->OutStream));
#if defined(TRIO_COMPILER_SUPPORTS_MULTIBYTE)
mblen(NULL, 0);
#endif
if (wstring == NULL)
{
TrioWriteString(self, NULL, flags, width, precision);
return;
}
if (NO_PRECISION == precision)
{
length = INT_MAX;
}
else
{
length = precision;
width -= length;
}
if (flags & FLAGS_QUOTE)
self->OutStream(self, CHAR_QUOTE);
if (! (flags & FLAGS_LEFTADJUST))
{
while (width-- > 0)
self->OutStream(self, CHAR_ADJUST);
}
while (length > 0)
{
size = TrioWriteWideStringCharacter(self, *wstring++, flags, length);
if (size == 0)
break; /* while */
length -= size;
}
if (flags & FLAGS_LEFTADJUST)
{
while (width-- > 0)
self->OutStream(self, CHAR_ADJUST);
}
if (flags & FLAGS_QUOTE)
self->OutStream(self, CHAR_QUOTE);
}
#endif /* TRIO_WIDECHAR */
/*************************************************************************
* TrioWriteDouble [private]
*/
static void
TrioWriteDouble(trio_T *self,
long double longdoubleNumber,
unsigned long flags,
int width,
int precision,
int base)
{
int charsPerThousand;
int length;
double number;
double workNumber;
int integerDigits;
int fractionDigits;
int exponentDigits;
int expectedWidth;
int exponent;
unsigned int uExponent = 0;
double dblBase;
BOOLEAN_T isNegative;
BOOLEAN_T isExponentNegative = FALSE;
BOOLEAN_T isHex;
const char *digits;
char numberBuffer[MAX_MANTISSA_DIGITS
* (1 + MAX_LOCALE_SEPARATOR_LENGTH) + 1];
char *numberPointer;
char exponentBuffer[MAX_EXPONENT_DIGITS + 1];
char *exponentPointer = NULL;
int groupingIndex;
char *work;
int i;
BOOLEAN_T onlyzero;
int zeroes = 0;
assert(VALID(self));
assert(VALID(self->OutStream));
assert(base == BASE_DECIMAL || base == BASE_HEX);
number = (double)longdoubleNumber;
/* Look for infinite numbers and non-a-number first */
switch (TrioIsInfinite(number))
{
case 1:
/* Positive infinity */
TrioWriteString(self,
(flags & FLAGS_UPPER)
? INFINITE_UPPER
: INFINITE_LOWER,
flags, width, precision);
return;
case -1:
/* Negative infinity */
TrioWriteString(self,
(flags & FLAGS_UPPER)
? "-" INFINITE_UPPER
: "-" INFINITE_LOWER,
flags, width, precision);
return;
default:
/* Finitude */
break;
}
if (TrioIsNan(number))
{
TrioWriteString(self,
(flags & FLAGS_UPPER)
? NAN_UPPER
: NAN_LOWER,
flags, width, precision);
return;
}
/* Normal numbers */
digits = (flags & FLAGS_UPPER) ? internalDigitsUpper : internalDigitsLower;
isHex = (base == BASE_HEX);
dblBase = (double)base;
if (precision == NO_PRECISION)
precision = FLT_DIG;
isNegative = (number < 0.0);
if (isNegative)
number = -number;
if ((flags & FLAGS_FLOAT_G) || isHex)
{
if (precision == 0)
precision = 1;
if ((number < 1.0e-4) || (number > pow(10.0, (double)precision)))
{
/* Use scientific notation */
flags |= FLAGS_FLOAT_E;
}
else if (number < 1.0)
{
/*
* Use normal notation. If the integer part of the number is
* zero, then adjust the precision to include leading fractional
* zeros.
*/
workNumber = fabs(guarded_log10(number));
if (workNumber - floor(workNumber) < 0.001)
workNumber--;
zeroes = (int)floor(workNumber);
}
}
if (flags & FLAGS_FLOAT_E)
{
/* Scale the number */
workNumber = guarded_log10(number);
if (workNumber == -HUGE_VAL)
{
exponent = 0;
/* Undo setting */
if (flags & FLAGS_FLOAT_G)
flags &= ~FLAGS_FLOAT_E;
}
else
{
exponent = (int)floor(workNumber);
number /= pow(10.0, (double)exponent);
isExponentNegative = (exponent < 0);
uExponent = (isExponentNegative) ? -exponent : exponent;
/* No thousand separators */
flags &= ~FLAGS_QUOTE;
}
}
/*
* Truncated number.
*
* precision is number of significant digits for FLOAT_G
* and number of fractional digits for others
*/
integerDigits = (floor(number) > DBL_EPSILON)
? 1 + (int)guarded_log10(floor(number))
: 1;
fractionDigits = ((flags & FLAGS_FLOAT_G) && (zeroes == 0))
? precision - integerDigits
: zeroes + precision;
number = floor(0.5 + number * pow(dblBase, (double)fractionDigits));
workNumber = (isHex
? guarded_log16(0.5 + number)
: guarded_log10(0.5 + number));
if ((int)workNumber + 1 > integerDigits + fractionDigits)
{
if (flags & FLAGS_FLOAT_E)
{
/* Adjust if number was rounded up one digit (ie. 0.99 to 1.00) */
exponent--;
uExponent -= (isExponentNegative) ? 1 : -1;
number /= dblBase;
}
else
{
/* Adjust if number was rounded up one digit (ie. 99 to 100) */
integerDigits++;
}
}
/* Build the fraction part */
numberPointer = &numberBuffer[sizeof(numberBuffer) - 1];
*numberPointer = NIL;
onlyzero = TRUE;
for (i = 0; i < fractionDigits; i++)
{
*(--numberPointer) = digits[(int)fmod(number, dblBase)];
number = floor(number / dblBase);
if ((flags & FLAGS_FLOAT_G) && !(flags & FLAGS_ALTERNATIVE))
{
/* Prune trailing zeroes */
if (numberPointer[0] != digits[0])
onlyzero = FALSE;
else if (onlyzero && (numberPointer[0] == digits[0]))
numberPointer++;
}
else
onlyzero = FALSE;
}
/* Insert decimal point */
if ((flags & FLAGS_ALTERNATIVE) || ((fractionDigits > 0) && !onlyzero))
{
i = StrLength(internalDecimalPoint);
while (i> 0)
{
*(--numberPointer) = internalDecimalPoint[--i];
}
}
/* Insert the integer part and thousand separators */
charsPerThousand = (int)internalGrouping[0];
groupingIndex = 1;
for (i = 1; i < integerDigits + 1; i++)
{
*(--numberPointer) = digits[(int)fmod(number, dblBase)];
number = floor(number / dblBase);
if (number < DBL_EPSILON)
break;
if ((i > 0)
&& ((flags & (FLAGS_FLOAT_E | FLAGS_QUOTE)) == FLAGS_QUOTE)
&& (charsPerThousand != NO_GROUPING)
&& (i % charsPerThousand == 0))
{
/*
* We are building the number from the least significant
* to the most significant digit, so we have to copy the
* thousand separator backwards
*/
length = StrLength(internalThousandSeparator);
integerDigits += length;
if (((int)(numberPointer - numberBuffer) - length) > 0)
{
work = &internalThousandSeparator[length - 1];
while (length-- > 0)
*(--numberPointer) = *work--;
}
/* Advance to next grouping number */
if (charsPerThousand != NO_GROUPING)
{
switch (internalGrouping[groupingIndex])
{
case CHAR_MAX: /* Disable grouping */
charsPerThousand = NO_GROUPING;
break;
case 0: /* Repeat last group */
break;
default:
charsPerThousand = (int)internalGrouping[groupingIndex++];
break;
}
}
}
}
/* Build the exponent */
exponentDigits = 0;
if (flags & FLAGS_FLOAT_E)
{
exponentPointer = &exponentBuffer[sizeof(exponentBuffer) - 1];
*exponentPointer-- = NIL;
do {
*exponentPointer-- = digits[uExponent % base];
uExponent /= base;
exponentDigits++;
} while (uExponent);
}
/*
* Calculate expected width.
* sign + integer part + thousands separators + decimal point
* + fraction + exponent
*/
expectedWidth = StrLength(numberPointer);
if (isNegative || (flags & FLAGS_SHOWSIGN))
expectedWidth += sizeof("-") - 1;
if (exponentDigits > 0)
expectedWidth += exponentDigits +
((exponentDigits > 1) ? sizeof("E+") : sizeof("E+0")) - 1;
if (isHex)
expectedWidth += sizeof("0X") - 1;
/* Output prefixing */
if (flags & FLAGS_NILPADDING)
{
/* Leading zeros must be after sign */
if (isNegative)
self->OutStream(self, '-');
else if (flags & FLAGS_SHOWSIGN)
self->OutStream(self, '+');
if (isHex)
{
self->OutStream(self, '0');
self->OutStream(self, (flags & FLAGS_UPPER) ? 'X' : 'x');
}
if (!(flags & FLAGS_LEFTADJUST))
{
for (i = expectedWidth; i < width; i++)
{
self->OutStream(self, '0');
}
}
}
else
{
/* Leading spaces must be before sign */
if (!(flags & FLAGS_LEFTADJUST))
{
for (i = expectedWidth; i < width; i++)
{
self->OutStream(self, CHAR_ADJUST);
}
}
if (isNegative)
self->OutStream(self, '-');
else if (flags & FLAGS_SHOWSIGN)
self->OutStream(self, '+');
if (isHex)
{
self->OutStream(self, '0');
self->OutStream(self, (flags & FLAGS_UPPER) ? 'X' : 'x');
}
}
/* Output number */
for (i = 0; numberPointer[i]; i++)
{
self->OutStream(self, numberPointer[i]);
}
/* Output exponent */
if (exponentDigits > 0)
{
self->OutStream(self,
isHex
? ((flags & FLAGS_UPPER) ? 'P' : 'p')
: ((flags & FLAGS_UPPER) ? 'E' : 'e'));
self->OutStream(self, (isExponentNegative) ? '-' : '+');
/* The exponent must contain at least two digits */
if (exponentDigits == 1)
self->OutStream(self, '0');
for (i = 0; i < exponentDigits; i++)
{
self->OutStream(self, exponentPointer[i + 1]);
}
}
/* Output trailing spaces */
if (flags & FLAGS_LEFTADJUST)
{
for (i = expectedWidth; i < width; i++)
{
self->OutStream(self, CHAR_ADJUST);
}
}
}
/*************************************************************************
* TrioFormatProcess [private]
*/
static int
TrioFormatProcess(trio_T *data,
const char *format,
parameter_T *parameters)
{
#if defined(TRIO_COMPILER_SUPPORTS_MULTIBYTE)
int charlen;
#endif
int i;
const char *string;
void *pointer;
unsigned long flags;
int width;
int precision;
int base;
int index;
index = 0;
i = 0;
#if defined(TRIO_COMPILER_SUPPORTS_MULTIBYTE)
mblen(NULL, 0);
#endif
while (format[index])
{
#if defined(TRIO_COMPILER_SUPPORTS_MULTIBYTE)
if (! isascii(format[index]))
{
charlen = mblen(&format[index], MB_LEN_MAX);
while (charlen-- > 0)
{
data->OutStream(data, format[index++]);
}
continue; /* while */
}
#endif /* TRIO_COMPILER_SUPPORTS_MULTIBYTE */
if (CHAR_IDENTIFIER == format[index])
{
if (CHAR_IDENTIFIER == format[index + 1])
{
data->OutStream(data, CHAR_IDENTIFIER);
index += 2;
}
else
{
/* Skip the parameter entries */
while (parameters[i].type == FORMAT_PARAMETER)
i++;
flags = parameters[i].flags;
/* Find width */
width = parameters[i].width;
if (flags & FLAGS_WIDTH_PARAMETER)
{
/* Get width from parameter list */
width = (int)parameters[width].data.number.as_signed;
}
/* Find precision */
if (flags & FLAGS_PRECISION)
{
precision = parameters[i].precision;
if (flags & FLAGS_PRECISION_PARAMETER)
{
/* Get precision from parameter list */
precision = (int)parameters[precision].data.number.as_signed;
}
}
else
{
precision = NO_PRECISION;
}
/* Find base */
base = parameters[i].base;
if (flags & FLAGS_BASE_PARAMETER)
{
/* Get base from parameter list */
base = (int)parameters[base].data.number.as_signed;
}
switch (parameters[i].type)
{
case FORMAT_CHAR:
if (flags & FLAGS_QUOTE)
data->OutStream(data, CHAR_QUOTE);
if (! (flags & FLAGS_LEFTADJUST))
{
while (--width > 0)
data->OutStream(data, CHAR_ADJUST);
}
#if TRIO_WIDECHAR
if (flags & FLAGS_WIDECHAR)
{
TrioWriteWideStringCharacter(data,
(wchar_t)parameters[i].data.number.as_signed,
flags,
NO_WIDTH);
}
else
#endif
TrioWriteStringCharacter(data,
(int)parameters[i].data.number.as_signed,
flags);
if (flags & FLAGS_LEFTADJUST)
{
while(--width > 0)
data->OutStream(data, CHAR_ADJUST);
}
if (flags & FLAGS_QUOTE)
data->OutStream(data, CHAR_QUOTE);
break; /* FORMAT_CHAR */
case FORMAT_INT:
if (base == NO_BASE)
base = BASE_DECIMAL;
TrioWriteNumber(data,
parameters[i].data.number.as_signed,
flags,
width,
precision,
base);
break; /* FORMAT_INT */
case FORMAT_DOUBLE:
TrioWriteDouble(data,
parameters[i].data.longdoubleNumber,
flags,
width,
precision,
base);
break; /* FORMAT_DOUBLE */
case FORMAT_STRING:
#if TRIO_WIDECHAR
if (flags & FLAGS_WIDECHAR)
{
TrioWriteWideString(data,
parameters[i].data.wstring,
flags,
width,
precision);
}
else
#endif
{
TrioWriteString(data,
parameters[i].data.string,
flags,
width,
precision);
}
break; /* FORMAT_STRING */
case FORMAT_POINTER:
{
reference_T reference;
reference.data = data;
reference.parameter = &parameters[i];
trio_print_pointer(&reference, parameters[i].data.pointer);
}
break; /* FORMAT_POINTER */
case FORMAT_COUNT:
pointer = parameters[i].data.pointer;
if (NULL != pointer)
{
/*
* C99 paragraph 7.19.6.1.8 says "the number of
* characters written to the output stream so far by
* this call", which is data->committed
*/
#if defined(QUALIFIER_SIZE_T) || defined(QUALIFIER_SIZE_T_UPPER)
if (flags & FLAGS_SIZE_T)
*(size_t *)pointer = (size_t)data->committed;
else
#endif
#if defined(QUALIFIER_PTRDIFF_T)
if (flags & FLAGS_PTRDIFF_T)
*(ptrdiff_t *)pointer = (ptrdiff_t)data->committed;
else
#endif
#if defined(QUALIFIER_INTMAX_T)
if (flags & FLAGS_INTMAX_T)
*(trio_intmax_t *)pointer = (trio_intmax_t)data->committed;
else
#endif
if (flags & FLAGS_QUAD)
{
*(trio_ulonglong_t *)pointer = (trio_ulonglong_t)data->committed;
}
else if (flags & FLAGS_LONG)
{
*(long int *)pointer = (long int)data->committed;
}
else if (flags & FLAGS_SHORT)
{
*(short int *)pointer = (short int)data->committed;
}
else
{
*(int *)pointer = (int)data->committed;
}
}
break; /* FORMAT_COUNT */
case FORMAT_PARAMETER:
break; /* FORMAT_PARAMETER */
#if defined(FORMAT_ERRNO)
case FORMAT_ERRNO:
string = StrError(parameters[i].data.errorNumber);
if (string)
{
TrioWriteString(data,
string,
flags,
width,
precision);
}
else
{
data->OutStream(data, '#');
TrioWriteNumber(data,
(trio_intmax_t)parameters[i].data.errorNumber,
flags,
width,
precision,
BASE_DECIMAL);
}
break; /* FORMAT_ERRNO */
#endif /* defined(FORMAT_ERRNO) */
#if defined(FORMAT_USER_DEFINED)
case FORMAT_USER_DEFINED:
{
reference_T reference;
userdef_T *def = NULL;
if (parameters[i].user_name[0] == NIL)
{
/* Use handle */
if ((i > 0) ||
(parameters[i - 1].type == FORMAT_PARAMETER))
def = (userdef_T *)parameters[i - 1].data.pointer;
}
else
{
/* Look up namespace */
def = TrioFindNamespace(parameters[i].user_name, NULL);
}
if (def) {
reference.data = data;
reference.parameter = &parameters[i];
def->callback(&reference);
}
}
break;
#endif /* defined(FORMAT_USER_DEFINED) */
default:
break;
} /* switch parameter type */
/* Prepare for next */
index = parameters[i].indexAfterSpecifier;
i++;
}
}
else /* not identifier */
{
data->OutStream(data, format[index++]);
}
}
return data->processed;
}
/*************************************************************************
* TrioFormatRef [private]
*/
static int
TrioFormatRef(reference_T *reference,
const char *format,
va_list arglist,
void **argarray)
{
int status;
parameter_T parameters[MAX_PARAMETERS];
status = TrioPreprocess(TYPE_PRINT, format, parameters, arglist, argarray);
if (status < 0)
return status;
return TrioFormatProcess(reference->data, format, parameters);
}
/*************************************************************************
* TrioFormat [private]
*
* Description:
* This is the main engine for formatting output
*/
static int
TrioFormat(void *destination,
size_t destinationSize,
void (*OutStream)(trio_T *, int),
const char *format,
va_list arglist,
void **argarray)
{
int status;
trio_T data;
parameter_T parameters[MAX_PARAMETERS];
assert(VALID(OutStream));
assert(VALID(format));
memset(&data, 0, sizeof(data));
data.OutStream = OutStream;
data.location = destination;
data.max = destinationSize;
#if defined(USE_LOCALE)
if (NULL == internalLocaleValues)
{
TrioSetLocale();
}
#endif
status = TrioPreprocess(TYPE_PRINT, format, parameters, arglist, argarray);
if (status < 0)
return status;
return TrioFormatProcess(&data, format, parameters);
}
/*************************************************************************
* TrioOutStreamFile [private]
*/
static void
TrioOutStreamFile(trio_T *self,
int output)
{
FILE *file = (FILE *)self->location;
assert(VALID(self));
assert(VALID(file));
self->processed++;
self->committed++;
(void)fputc(output, file);
}
/*************************************************************************
* TrioOutStreamFileDescriptor [private]
*/
static void
TrioOutStreamFileDescriptor(trio_T *self,
int output)
{
int fd = *((int *)self->location);
char ch;
assert(VALID(self));
ch = (char)output;
(void)write(fd, &ch, sizeof(char));
self->processed++;
self->committed++;
}
/*************************************************************************
* TrioOutStreamString [private]
*/
static void
TrioOutStreamString(trio_T *self,
int output)
{
char **buffer = (char **)self->location;
assert(VALID(self));
assert(VALID(buffer));
**buffer = (char)output;
(*buffer)++;
self->processed++;
self->committed++;
}
/*************************************************************************
* TrioOutStreamStringMax [private]
*/
static void
TrioOutStreamStringMax(trio_T *self,
int output)
{
char **buffer;
assert(VALID(self));
buffer = (char **)self->location;
assert(VALID(buffer));
if (self->processed < self->max)
{
**buffer = (char)output;
(*buffer)++;
self->committed++;
}
self->processed++;
}
/*************************************************************************
* TrioOutStreamStringDynamic [private]
*/
#define DYNAMIC_START_SIZE 32
struct dynamicBuffer {
char *buffer;
size_t length;
size_t allocated;
};
static void
TrioOutStreamStringDynamic(trio_T *self,
int output)
{
struct dynamicBuffer *infop;
assert(VALID(self));
assert(VALID(self->location));
infop = (struct dynamicBuffer *)self->location;
if (infop->buffer == NULL)
{
/* Start with a reasonable size */
infop->buffer = (char *)TRIO_MALLOC(DYNAMIC_START_SIZE);
if (infop->buffer == NULL)
return; /* fail */
infop->allocated = DYNAMIC_START_SIZE;
self->processed = 0;
self->committed = 0;
}
else if (self->committed + sizeof(NIL) >= infop->allocated)
{
char *newptr;
/* Allocate increasing chunks */
newptr = (char *)TRIO_REALLOC(infop->buffer, infop->allocated * 2);
if (newptr == NULL)
return;
infop->buffer = newptr;
infop->allocated *= 2;
}
infop->buffer[self->committed] = (char)output;
self->committed++;
self->processed++;
infop->length = self->committed;
}
/*************************************************************************
* printf
*/
int
trio_printf(const char *format,
...)
{
int status;
va_list args;
assert(VALID(format));
va_start(args, format);
status = TrioFormat(stdout, 0, TrioOutStreamFile, format, args, NULL);
va_end(args);
return status;
}
int
trio_vprintf(const char *format,
va_list args)
{
assert(VALID(format));
return TrioFormat(stdout, 0, TrioOutStreamFile, format, args, NULL);
}
int
trio_printfv(const char *format,
void ** args)
{
va_list dummy;
assert(VALID(format));
return TrioFormat(stdout, 0, TrioOutStreamFile, format, dummy, args);
}
/*************************************************************************
* fprintf
*/
int
trio_fprintf(FILE *file,
const char *format,
...)
{
int status;
va_list args;
assert(VALID(file));
assert(VALID(format));
va_start(args, format);
status = TrioFormat(file, 0, TrioOutStreamFile, format, args, NULL);
va_end(args);
return status;
}
int
trio_vfprintf(FILE *file,
const char *format,
va_list args)
{
assert(VALID(file));
assert(VALID(format));
return TrioFormat(file, 0, TrioOutStreamFile, format, args, NULL);
}
int
trio_fprintfv(FILE *file,
const char *format,
void ** args)
{
va_list dummy;
assert(VALID(file));
assert(VALID(format));
return TrioFormat(file, 0, TrioOutStreamFile, format, dummy, args);
}
/*************************************************************************
* dprintf
*/
int
trio_dprintf(int fd,
const char *format,
...)
{
int status;
va_list args;
assert(VALID(format));
va_start(args, format);
status = TrioFormat(&fd, 0, TrioOutStreamFileDescriptor, format, args, NULL);
va_end(args);
return status;
}
int
trio_vdprintf(int fd,
const char *format,
va_list args)
{
assert(VALID(format));
return TrioFormat(&fd, 0, TrioOutStreamFileDescriptor, format, args, NULL);
}
int
trio_dprintfv(int fd,
const char *format,
void **args)
{
va_list dummy;
assert(VALID(format));
return TrioFormat(&fd, 0, TrioOutStreamFileDescriptor, format, dummy, args);
}
/*************************************************************************
* sprintf
*/
int
trio_sprintf(char *buffer,
const char *format,
...)
{
int status;
va_list args;
assert(VALID(buffer));
assert(VALID(format));
va_start(args, format);
status = TrioFormat(&buffer, 0, TrioOutStreamString, format, args, NULL);
*buffer = NIL; /* Terminate with NIL character */
va_end(args);
return status;
}
int
trio_vsprintf(char *buffer,
const char *format,
va_list args)
{
int status;
assert(VALID(buffer));
assert(VALID(format));
status = TrioFormat(&buffer, 0, TrioOutStreamString, format, args, NULL);
*buffer = NIL;
return status;
}
int
trio_sprintfv(char *buffer,
const char *format,
void **args)
{
int status;
va_list dummy;
assert(VALID(buffer));
assert(VALID(format));
status = TrioFormat(&buffer, 0, TrioOutStreamString, format, dummy, args);
*buffer = NIL;
return status;
}
/*************************************************************************
* snprintf
*/
int
trio_snprintf(char *buffer,
size_t bufferSize,
const char *format,
...)
{
int status;
va_list args;
assert(VALID(buffer));
assert(VALID(format));
va_start(args, format);
status = TrioFormat(&buffer, bufferSize > 0 ? bufferSize - 1 : 0,
TrioOutStreamStringMax, format, args, NULL);
if (bufferSize > 0)
*buffer = NIL;
va_end(args);
return status;
}
int
trio_vsnprintf(char *buffer,
size_t bufferSize,
const char *format,
va_list args)
{
int status;
assert(VALID(buffer));
assert(VALID(format));
status = TrioFormat(&buffer, bufferSize > 0 ? bufferSize - 1 : 0,
TrioOutStreamStringMax, format, args, NULL);
if (bufferSize > 0)
*buffer = NIL;
return status;
}
int
trio_snprintfv(char *buffer,
size_t bufferSize,
const char *format,
void **args)
{
int status;
va_list dummy;
assert(VALID(buffer));
assert(VALID(format));
status = TrioFormat(&buffer, bufferSize > 0 ? bufferSize - 1 : 0,
TrioOutStreamStringMax, format, dummy, args);
if (bufferSize > 0)
*buffer = NIL;
return status;
}
/*************************************************************************
* snprintfcat
* Appends the new string to the buffer string overwriting the '\0'
* character at the end of buffer.
*/
int
trio_snprintfcat(char *buffer,
size_t bufferSize,
const char *format,
...)
{
int status;
va_list args;
size_t buf_len;
va_start(args, format);
assert(VALID(buffer));
assert(VALID(format));
buf_len = strlen(buffer);
buffer = &buffer[buf_len];
status = TrioFormat(&buffer, bufferSize - 1 - buf_len,
TrioOutStreamStringMax, format, args, NULL);
va_end(args);
*buffer = NIL;
return status;
}
int
trio_vsnprintfcat(char *buffer,
size_t bufferSize,
const char *format,
va_list args)
{
int status;
size_t buf_len;
assert(VALID(buffer));
assert(VALID(format));
buf_len = strlen(buffer);
buffer = &buffer[buf_len];
status = TrioFormat(&buffer, bufferSize - 1 - buf_len,
TrioOutStreamStringMax, format, args, NULL);
*buffer = NIL;
return status;
}
/*************************************************************************
* trio_aprintf
*/
/* Deprecated */
char *
trio_aprintf(const char *format,
...)
{
va_list args;
struct dynamicBuffer info;
assert(VALID(format));
info.buffer = NULL;
info.length = 0;
info.allocated = 0;
va_start(args, format);
(void)TrioFormat(&info, 0, TrioOutStreamStringDynamic, format, args, NULL);
va_end(args);
if (info.length) {
info.buffer[info.length] = NIL; /* we terminate this with a zero byte */
return info.buffer;
}
else
return NULL;
}
/* Deprecated */
char *
trio_vaprintf(const char *format,
va_list args)
{
struct dynamicBuffer info;
assert(VALID(format));
info.buffer = NULL;
info.length = 0;
info.allocated = 0;
(void)TrioFormat(&info, 0, TrioOutStreamStringDynamic, format, args, NULL);
if (info.length) {
info.buffer[info.length] = NIL; /* we terminate this with a zero byte */
return info.buffer;
}
else
return NULL;
}
int
trio_asprintf(char **result,
const char *format,
...)
{
va_list args;
int status;
struct dynamicBuffer info;
assert(VALID(format));
info.buffer = NULL;
info.length = 0;
info.allocated = 0;
va_start(args, format);
status = TrioFormat(&info, 0, TrioOutStreamStringDynamic, format, args, NULL);
va_end(args);
if (status < 0) {
*result = NULL;
return status;
}
if (info.length == 0) {
/*
* If the length is zero, no characters have been written and therefore
* no memory has been allocated, but we must to allocate and return an
* empty string.
*/
info.buffer = (char *)TRIO_MALLOC(sizeof(char));
if (info.buffer == NULL) {
*result = NULL;
return TRIO_ERROR_RETURN(TRIO_ENOMEM, 0);
}
}
info.buffer[info.length] = NIL; /* we terminate this with a zero byte */
*result = info.buffer;
return status;
}
int
trio_vasprintf(char **result,
const char *format,
va_list args)
{
int status;
struct dynamicBuffer info;
assert(VALID(format));
info.buffer = NULL;
info.length = 0;
info.allocated = 0;
status = TrioFormat(&info, 0, TrioOutStreamStringDynamic, format, args, NULL);
if (status < 0) {
*result = NULL;
return status;
}
if (info.length == 0) {
info.buffer = (char *)TRIO_MALLOC(sizeof(char));
if (info.buffer == NULL) {
*result = NULL;
return TRIO_ERROR_RETURN(TRIO_ENOMEM, 0);
}
}
info.buffer[info.length] = NIL; /* we terminate this with a zero byte */
*result = info.buffer;
return status;
}
/*************************************************************************
*
* @CALLBACK
*
************************************************************************/
/*************************************************************************
* trio_register [public]
*/
void *
trio_register(trio_callback_t callback,
const char *name)
{
userdef_T *def;
userdef_T *prev = NULL;
if (callback == NULL)
return NULL;
if (name)
{
/* Handle built-in namespaces */
if (name[0] == ':')
{
if (StrEqual(name, ":enter"))
{
internalEnterCriticalRegion = callback;
}
else if (StrEqual(name, ":leave"))
{
internalLeaveCriticalRegion = callback;
}
return NULL;
}
/* Bail out if namespace is too long */
if (StrLength(name) >= MAX_USER_NAME)
return NULL;
/* Bail out if namespace already is registered */
def = TrioFindNamespace(name, &prev);
if (def)
return NULL;
}
def = (userdef_T *)TRIO_MALLOC(sizeof(userdef_T));
if (def)
{
if (internalEnterCriticalRegion)
(void)internalEnterCriticalRegion(NULL);
if (name)
{
/* Link into internal list */
if (prev == NULL)
internalUserDef = def;
else
prev->next = def;
}
/* Initialize */
def->callback = callback;
def->name = (name == NULL)
? NULL
: StrDuplicate(name);
def->next = NULL;
if (internalLeaveCriticalRegion)
(void)internalLeaveCriticalRegion(NULL);
}
return def;
}
/*************************************************************************
* trio_unregister [public]
*/
void
trio_unregister(void *handle)
{
userdef_T *self = (userdef_T *)handle;
userdef_T *def;
userdef_T *prev = NULL;
assert(VALID(self));
if (self->name)
{
def = TrioFindNamespace(self->name, &prev);
if (def)
{
if (internalEnterCriticalRegion)
(void)internalEnterCriticalRegion(NULL);
if (prev == NULL)
internalUserDef = NULL;
else
prev->next = def->next;
if (internalLeaveCriticalRegion)
(void)internalLeaveCriticalRegion(NULL);
}
StrFree(self->name);
}
TRIO_FREE(self);
}
/*************************************************************************
* trio_get_format [public]
*/
const char *
trio_get_format(void *ref)
{
assert(((reference_T *)ref)->parameter->type == FORMAT_USER_DEFINED);
return (((reference_T *)ref)->parameter->user_data);
}
/*************************************************************************
* trio_get_argument [public]
*/
void *
trio_get_argument(void *ref)
{
assert(((reference_T *)ref)->parameter->type == FORMAT_USER_DEFINED);
return ((reference_T *)ref)->parameter->data.pointer;
}
/*************************************************************************
* trio_get_width / trio_set_width [public]
*/
int
trio_get_width(void *ref)
{
return ((reference_T *)ref)->parameter->width;
}
void
trio_set_width(void *ref,
int width)
{
((reference_T *)ref)->parameter->width = width;
}
/*************************************************************************
* trio_get_precision / trio_set_precision [public]
*/
int
trio_get_precision(void *ref)
{
return (((reference_T *)ref)->parameter->precision);
}
void
trio_set_precision(void *ref,
int precision)
{
((reference_T *)ref)->parameter->precision = precision;
}
/*************************************************************************
* trio_get_base / trio_set_base [public]
*/
int
trio_get_base(void *ref)
{
return (((reference_T *)ref)->parameter->base);
}
void
trio_set_base(void *ref,
int base)
{
((reference_T *)ref)->parameter->base = base;
}
/*************************************************************************
* trio_get_long / trio_set_long [public]
*/
int
trio_get_long(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_LONG);
}
void
trio_set_long(void *ref,
int is_long)
{
if (is_long)
((reference_T *)ref)->parameter->flags |= FLAGS_LONG;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_LONG;
}
/*************************************************************************
* trio_get_longlong / trio_set_longlong [public]
*/
int
trio_get_longlong(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_QUAD);
}
void
trio_set_longlong(void *ref,
int is_longlong)
{
if (is_longlong)
((reference_T *)ref)->parameter->flags |= FLAGS_QUAD;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_QUAD;
}
/*************************************************************************
* trio_get_longdouble / trio_set_longdouble [public]
*/
int
trio_get_longdouble(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_LONGDOUBLE);
}
void
trio_set_longdouble(void *ref,
int is_longdouble)
{
if (is_longdouble)
((reference_T *)ref)->parameter->flags |= FLAGS_LONGDOUBLE;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_LONGDOUBLE;
}
/*************************************************************************
* trio_get_short / trio_set_short [public]
*/
int
trio_get_short(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_SHORT);
}
void
trio_set_short(void *ref,
int is_short)
{
if (is_short)
((reference_T *)ref)->parameter->flags |= FLAGS_SHORT;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_SHORT;
}
/*************************************************************************
* trio_get_shortshort / trio_set_shortshort [public]
*/
int
trio_get_shortshort(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_SHORTSHORT);
}
void
trio_set_shortshort(void *ref,
int is_shortshort)
{
if (is_shortshort)
((reference_T *)ref)->parameter->flags |= FLAGS_SHORTSHORT;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_SHORTSHORT;
}
/*************************************************************************
* trio_get_alternative / trio_set_alternative [public]
*/
int
trio_get_alternative(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_ALTERNATIVE);
}
void
trio_set_alternative(void *ref,
int is_alternative)
{
if (is_alternative)
((reference_T *)ref)->parameter->flags |= FLAGS_ALTERNATIVE;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_ALTERNATIVE;
}
/*************************************************************************
* trio_get_alignment / trio_set_alignment [public]
*/
int
trio_get_alignment(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_LEFTADJUST);
}
void
trio_set_alignment(void *ref,
int is_leftaligned)
{
if (is_leftaligned)
((reference_T *)ref)->parameter->flags |= FLAGS_LEFTADJUST;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_LEFTADJUST;
}
/*************************************************************************
* trio_get_spacing /trio_set_spacing [public]
*/
int
trio_get_spacing(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_SPACE);
}
void
trio_set_spacing(void *ref,
int is_space)
{
if (is_space)
((reference_T *)ref)->parameter->flags |= FLAGS_SPACE;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_SPACE;
}
/*************************************************************************
* trio_get_sign / trio_set_sign [public]
*/
int
trio_get_sign(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_SHOWSIGN);
}
void
trio_set_sign(void *ref,
int is_sign)
{
if (is_sign)
((reference_T *)ref)->parameter->flags |= FLAGS_SHOWSIGN;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_SHOWSIGN;
}
/*************************************************************************
* trio_get_padding / trio_set_padding [public]
*/
int
trio_get_padding(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_NILPADDING);
}
void
trio_set_padding(void *ref,
int is_padding)
{
if (is_padding)
((reference_T *)ref)->parameter->flags |= FLAGS_NILPADDING;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_NILPADDING;
}
/*************************************************************************
* trio_get_quote / trio_set_quote [public]
*/
int
trio_get_quote(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_QUOTE);
}
void
trio_set_quote(void *ref,
int is_quote)
{
if (is_quote)
((reference_T *)ref)->parameter->flags |= FLAGS_QUOTE;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_QUOTE;
}
/*************************************************************************
* trio_get_upper / trio_set_upper [public]
*/
int
trio_get_upper(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_UPPER);
}
void
trio_set_upper(void *ref,
int is_upper)
{
if (is_upper)
((reference_T *)ref)->parameter->flags |= FLAGS_UPPER;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_UPPER;
}
/*************************************************************************
* trio_get_largest / trio_set_largest [public]
*/
#if TRIO_C99
int
trio_get_largest(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_INTMAX_T);
}
void
trio_set_largest(void *ref,
int is_largest)
{
if (is_largest)
((reference_T *)ref)->parameter->flags |= FLAGS_INTMAX_T;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_INTMAX_T;
}
#endif
/*************************************************************************
* trio_get_ptrdiff / trio_set_ptrdiff [public]
*/
int
trio_get_ptrdiff(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_PTRDIFF_T);
}
void
trio_set_ptrdiff(void *ref,
int is_ptrdiff)
{
if (is_ptrdiff)
((reference_T *)ref)->parameter->flags |= FLAGS_PTRDIFF_T;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_PTRDIFF_T;
}
/*************************************************************************
* trio_get_size / trio_set_size [public]
*/
#if TRIO_C99
int
trio_get_size(void *ref)
{
return (((reference_T *)ref)->parameter->flags & FLAGS_SIZE_T);
}
void
trio_set_size(void *ref,
int is_size)
{
if (is_size)
((reference_T *)ref)->parameter->flags |= FLAGS_SIZE_T;
else
((reference_T *)ref)->parameter->flags &= ~FLAGS_SIZE_T;
}
#endif
/*************************************************************************
* trio_print_int [public]
*/
void
trio_print_int(void *ref,
int number)
{
reference_T *self = (reference_T *)ref;
TrioWriteNumber(self->data,
(trio_intmax_t)number,
self->parameter->flags,
self->parameter->width,
self->parameter->precision,
self->parameter->base);
}
/*************************************************************************
* trio_print_uint [public]
*/
void
trio_print_uint(void *ref,
unsigned int number)
{
reference_T *self = (reference_T *)ref;
TrioWriteNumber(self->data,
(trio_intmax_t)number,
self->parameter->flags | FLAGS_UNSIGNED,
self->parameter->width,
self->parameter->precision,
self->parameter->base);
}
/*************************************************************************
* trio_print_double [public]
*/
void
trio_print_double(void *ref,
double number)
{
reference_T *self = (reference_T *)ref;
TrioWriteDouble(self->data,
number,
self->parameter->flags,
self->parameter->width,
self->parameter->precision,
self->parameter->base);
}
/*************************************************************************
* trio_print_string [public]
*/
void
trio_print_string(void *ref,
char *string)
{
reference_T *self = (reference_T *)ref;
TrioWriteString(self->data,
string,
self->parameter->flags,
self->parameter->width,
self->parameter->precision);
}
/*************************************************************************
* trio_print_pointer [public]
*/
void
trio_print_pointer(void *ref,
void *pointer)
{
reference_T *self = (reference_T *)ref;
unsigned long flags;
trio_uintmax_t number;
if (NULL == pointer)
{
const char *string = null;
while (*string)
self->data->OutStream(self->data, *string++);
}
else
{
/*
* The subtraction of the null pointer is a workaround
* to avoid a compiler warning. The performance overhead
* is negligible (and likely to be removed by an
* optimising compiler). The (char *) casting is done
* to please ANSI C++.
*/
number = (trio_uintmax_t)((char *)pointer - (char *)0);
/* Shrink to size of pointer */
number &= (trio_uintmax_t)-1;
flags = self->parameter->flags;
flags |= (FLAGS_UNSIGNED | FLAGS_ALTERNATIVE |
FLAGS_NILPADDING);
TrioWriteNumber(self->data,
(trio_intmax_t)number,
flags,
POINTER_WIDTH,
NO_PRECISION,
BASE_HEX);
}
}
/*************************************************************************
* trio_print_ref [public]
*/
int
trio_print_ref(void *ref,
const char *format,
...)
{
int status;
va_list arglist;
assert(VALID(format));
va_start(arglist, format);
status = TrioFormatRef((reference_T *)ref, format, arglist, NULL);
va_end(arglist);
return status;
}
/*************************************************************************
* trio_vprint_ref [public]
*/
int
trio_vprint_ref(void *ref,
const char *format,
va_list arglist)
{
assert(VALID(format));
return TrioFormatRef((reference_T *)ref, format, arglist, NULL);
}
/*************************************************************************
* trio_printv_ref [public]
*/
int
trio_printv_ref(void *ref,
const char *format,
void **argarray)
{
va_list dummy;
assert(VALID(format));
return TrioFormatRef((reference_T *)ref, format, dummy, argarray);
}
/*************************************************************************
*
* @SCANNING
*
************************************************************************/
/*************************************************************************
* TrioSkipWhitespaces [private]
*/
static int
TrioSkipWhitespaces(trio_T *self)
{
int ch;
ch = self->current;
while (isspace(ch))
{
self->InStream(self, &ch);
}
return ch;
}
/*************************************************************************
* TrioGetCollation [private]
*/
#if TRIO_EXTENSION
static void
TrioGetCollation()
{
int i;
int j;
int k;
char first[2];
char second[2];
/* This is computational expensive */
first[1] = NIL;
second[1] = NIL;
for (i = 0; i < MAX_CHARACTER_CLASS; i++)
{
k = 0;
first[0] = (char)i;
for (j = 0; j < MAX_CHARACTER_CLASS; j++)
{
second[0] = (char)j;
if (StrEqualLocale(first, second))
internalCollationArray[i][k++] = (char)j;
}
internalCollationArray[i][k] = NIL;
}
}
#endif
/*************************************************************************
* TrioGetCharacterClass [private]
*
* FIXME:
* multibyte
*/
static int
TrioGetCharacterClass(const char *format,
int *indexPointer,
unsigned long *flagsPointer,
int *characterclass)
{
int index = *indexPointer;
int i;
char ch;
char range_begin;
char range_end;
*flagsPointer &= ~FLAGS_EXCLUDE;
if (format[index] == QUALIFIER_CIRCUMFLEX)
{
*flagsPointer |= FLAGS_EXCLUDE;
index++;
}
/*
* If the ungroup character is at the beginning of the scanlist,
* it will be part of the class, and a second ungroup character
* must follow to end the group.
*/
if (format[index] == SPECIFIER_UNGROUP)
{
characterclass[(int)SPECIFIER_UNGROUP]++;
index++;
}
/*
* Minus is used to specify ranges. To include minus in the class,
* it must be at the beginning of the list
*/
if (format[index] == QUALIFIER_MINUS)
{
characterclass[(int)QUALIFIER_MINUS]++;
index++;
}
/* Collect characters */
for (ch = format[index];
(ch != SPECIFIER_UNGROUP) && (ch != NIL);
ch = format[++index])
{
switch (ch)
{
case QUALIFIER_MINUS: /* Scanlist ranges */
/*
* Both C99 and UNIX98 describes ranges as implementation-
* defined.
*
* We support the following behaviour (although this may
* change as we become wiser)
* - only increasing ranges, ie. [a-b] but not [b-a]
* - transitive ranges, ie. [a-b-c] == [a-c]
* - trailing minus, ie. [a-] is interpreted as an 'a'
* and a '-'
* - duplicates (although we can easily convert these
* into errors)
*/
range_begin = format[index - 1];
range_end = format[++index];
if (range_end == SPECIFIER_UNGROUP)
{
/* Trailing minus is included */
characterclass[(int)ch]++;
ch = range_end;
break; /* for */
}
if (range_end == NIL)
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
if (range_begin > range_end)
return TRIO_ERROR_RETURN(TRIO_ERANGE, index);
for (i = (int)range_begin; i <= (int)range_end; i++)
characterclass[i]++;
ch = range_end;
break;
#if TRIO_EXTENSION
case SPECIFIER_GROUP:
switch (format[index + 1])
{
case QUALIFIER_DOT: /* Collating symbol */
/*
* FIXME: This will be easier to implement when multibyte
* characters have been implemented. Until now, we ignore
* this feature.
*/
for (i = index + 2; ; i++)
{
if (format[i] == NIL)
/* Error in syntax */
return -1;
else if (format[i] == QUALIFIER_DOT)
break; /* for */
}
if (format[++i] != SPECIFIER_UNGROUP)
return -1;
index = i;
break;
case QUALIFIER_EQUAL: /* Equivalence class expressions */
{
unsigned int j;
unsigned int k;
if (internalCollationUnconverted)
{
/* Lazy evalutation of collation array */
TrioGetCollation();
internalCollationUnconverted = FALSE;
}
for (i = index + 2; ; i++)
{
if (format[i] == NIL)
/* Error in syntax */
return -1;
else if (format[i] == QUALIFIER_EQUAL)
break; /* for */
else
{
/* Mark any equivalent character */
k = (unsigned int)format[i];
for (j = 0; internalCollationArray[k][j] != NIL; j++)
characterclass[(int)internalCollationArray[k][j]]++;
}
}
if (format[++i] != SPECIFIER_UNGROUP)
return -1;
index = i;
}
break;
case QUALIFIER_COLON: /* Character class expressions */
if (StrEqualMax(CLASS_ALNUM, sizeof(CLASS_ALNUM) - 1,
&format[index]))
{
for (i = 0; i < MAX_CHARACTER_CLASS; i++)
if (isalnum(i))
characterclass[i]++;
index += sizeof(CLASS_ALNUM) - 1;
}
else if (StrEqualMax(CLASS_ALPHA, sizeof(CLASS_ALPHA) - 1,
&format[index]))
{
for (i = 0; i < MAX_CHARACTER_CLASS; i++)
if (isalpha(i))
characterclass[i]++;
index += sizeof(CLASS_ALPHA) - 1;
}
else if (StrEqualMax(CLASS_CNTRL, sizeof(CLASS_CNTRL) - 1,
&format[index]))
{
for (i = 0; i < MAX_CHARACTER_CLASS; i++)
if (iscntrl(i))
characterclass[i]++;
index += sizeof(CLASS_CNTRL) - 1;
}
else if (StrEqualMax(CLASS_DIGIT, sizeof(CLASS_DIGIT) - 1,
&format[index]))
{
for (i = 0; i < MAX_CHARACTER_CLASS; i++)
if (isdigit(i))
characterclass[i]++;
index += sizeof(CLASS_DIGIT) - 1;
}
else if (StrEqualMax(CLASS_GRAPH, sizeof(CLASS_GRAPH) - 1,
&format[index]))
{
for (i = 0; i < MAX_CHARACTER_CLASS; i++)
if (isgraph(i))
characterclass[i]++;
index += sizeof(CLASS_GRAPH) - 1;
}
else if (StrEqualMax(CLASS_LOWER, sizeof(CLASS_LOWER) - 1,
&format[index]))
{
for (i = 0; i < MAX_CHARACTER_CLASS; i++)
if (islower(i))
characterclass[i]++;
index += sizeof(CLASS_LOWER) - 1;
}
else if (StrEqualMax(CLASS_PRINT, sizeof(CLASS_PRINT) - 1,
&format[index]))
{
for (i = 0; i < MAX_CHARACTER_CLASS; i++)
if (isprint(i))
characterclass[i]++;
index += sizeof(CLASS_PRINT) - 1;
}
else if (StrEqualMax(CLASS_PUNCT, sizeof(CLASS_PUNCT) - 1,
&format[index]))
{
for (i = 0; i < MAX_CHARACTER_CLASS; i++)
if (ispunct(i))
characterclass[i]++;
index += sizeof(CLASS_PUNCT) - 1;
}
else if (StrEqualMax(CLASS_SPACE, sizeof(CLASS_SPACE) - 1,
&format[index]))
{
for (i = 0; i < MAX_CHARACTER_CLASS; i++)
if (isspace(i))
characterclass[i]++;
index += sizeof(CLASS_SPACE) - 1;
}
else if (StrEqualMax(CLASS_UPPER, sizeof(CLASS_UPPER) - 1,
&format[index]))
{
for (i = 0; i < MAX_CHARACTER_CLASS; i++)
if (isupper(i))
characterclass[i]++;
index += sizeof(CLASS_UPPER) - 1;
}
else if (StrEqualMax(CLASS_XDIGIT, sizeof(CLASS_XDIGIT) - 1,
&format[index]))
{
for (i = 0; i < MAX_CHARACTER_CLASS; i++)
if (isxdigit(i))
characterclass[i]++;
index += sizeof(CLASS_XDIGIT) - 1;
}
else
{
characterclass[(int)ch]++;
}
break;
default:
characterclass[(int)ch]++;
break;
}
break;
#endif /* TRIO_EXTENSION */
default:
characterclass[(int)ch]++;
break;
}
}
return 0;
}
/*************************************************************************
* TrioReadNumber [private]
*
* We implement our own number conversion in preference of strtol and
* strtoul, because we must handle 'long long' and thousand separators.
*/
static BOOLEAN_T
TrioReadNumber(trio_T *self,
trio_uintmax_t *target,
unsigned long flags,
int width,
int base)
{
trio_uintmax_t number = 0;
int digit;
int count;
BOOLEAN_T isNegative = FALSE;
int j;
assert(VALID(self));
assert(VALID(self->InStream));
assert((base >= MIN_BASE && base <= MAX_BASE) || (base == NO_BASE));
if (internalDigitsUnconverted)
{
/* Lazy evaluation of digits array */
memset(internalDigitArray, -1, sizeof(internalDigitArray));
for (j = 0; j < (int)sizeof(internalDigitsLower) - 1; j++)
{
internalDigitArray[(int)internalDigitsLower[j]] = j;
internalDigitArray[(int)internalDigitsUpper[j]] = j;
}
internalDigitsUnconverted = FALSE;
}
TrioSkipWhitespaces(self);
if (!(flags & FLAGS_UNSIGNED))
{
/* Leading sign */
if (self->current == '+')
{
self->InStream(self, NULL);
}
else if (self->current == '-')
{
self->InStream(self, NULL);
isNegative = TRUE;
}
}
count = self->processed;
if (flags & FLAGS_ALTERNATIVE)
{
switch (base)
{
case NO_BASE:
case BASE_OCTAL:
case BASE_HEX:
case BASE_BINARY:
if (self->current == '0')
{
self->InStream(self, NULL);
if (self->current)
{
if ((base == BASE_HEX) &&
(toupper(self->current) == 'X'))
{
self->InStream(self, NULL);
}
else if ((base == BASE_BINARY) &&
(toupper(self->current) == 'B'))
{
self->InStream(self, NULL);
}
}
}
else
return FALSE;
break;
default:
break;
}
}
while (((width == NO_WIDTH) || (self->processed - count < width)) &&
(! ((self->current == EOF) || isspace(self->current))))
{
if (isascii(self->current))
{
digit = internalDigitArray[self->current];
/* Abort if digit is not allowed in the specified base */
if ((digit == -1) || (digit >= base))
break;
}
else if (flags & FLAGS_QUOTE)
{
/* Compare with thousands separator */
for (j = 0; internalThousandSeparator[j] && self->current; j++)
{
if (internalThousandSeparator[j] != self->current)
break;
self->InStream(self, NULL);
}
if (internalThousandSeparator[j])
break; /* Mismatch */
else
continue; /* Match */
}
else
break;
number *= base;
number += digit;
self->InStream(self, NULL);
}
/* Was anything read at all? */
if (self->processed == count)
return FALSE;
if (target)
*target = (isNegative) ? -number : number;
return TRUE;
}
/*************************************************************************
* TrioReadChar [private]
*/
static int
TrioReadChar(trio_T *self,
char *target,
unsigned long flags,
int width)
{
int i;
char ch;
trio_uintmax_t number;
assert(VALID(self));
assert(VALID(self->InStream));
for (i = 0;
(self->current != EOF) && (i < width);
i++)
{
ch = (char)self->current;
self->InStream(self, NULL);
if ((flags & FLAGS_ALTERNATIVE) && (ch == CHAR_BACKSLASH))
{
switch (self->current)
{
case '\\': ch = '\\'; break;
case 'a': ch = '\007'; break;
case 'b': ch = '\b'; break;
case 'f': ch = '\f'; break;
case 'n': ch = '\n'; break;
case 'r': ch = '\r'; break;
case 't': ch = '\t'; break;
case 'v': ch = '\v'; break;
default:
if (isdigit(self->current))
{
/* Read octal number */
if (!TrioReadNumber(self, &number, 0, 3, BASE_OCTAL))
return 0;
ch = (char)number;
}
else if (toupper(self->current) == 'X')
{
/* Read hexadecimal number */
self->InStream(self, NULL);
if (!TrioReadNumber(self, &number, 0, 2, BASE_HEX))
return 0;
ch = (char)number;
}
else
{
ch = (char)self->current;
}
break;
}
}
if (target)
target[i] = ch;
}
return i + 1;
}
/*************************************************************************
* TrioReadString [private]
*/
static BOOLEAN_T
TrioReadString(trio_T *self,
char *target,
unsigned long flags,
int width)
{
int i;
assert(VALID(self));
assert(VALID(self->InStream));
TrioSkipWhitespaces(self);
/*
* Continue until end of string is reached, a whitespace is encountered,
* or width is exceeded
*/
for (i = 0;
((width == NO_WIDTH) || (i < width)) &&
(! ((self->current == EOF) || isspace(self->current)));
i++)
{
if (TrioReadChar(self, &target[i], flags, 1) == 0)
break; /* for */
}
if (target)
target[i] = NIL;
return TRUE;
}
/*************************************************************************
* TrioReadWideChar [private]
*/
#if TRIO_WIDECHAR
static int
TrioReadWideChar(trio_T *self,
wchar_t *target,
unsigned long flags,
int width)
{
int i;
int j;
int size;
int amount = 0;
wchar_t wch;
char buffer[MB_LEN_MAX + 1];
assert(VALID(self));
assert(VALID(self->InStream));
for (i = 0;
(self->current != EOF) && (i < width);
i++)
{
if (isascii(self->current))
{
if (TrioReadChar(self, buffer, flags, 1) == 0)
return 0;
buffer[1] = NIL;
}
else
{
/*
* Collect a multibyte character, by enlarging buffer until
* it contains a fully legal multibyte character, or the
* buffer is full.
*/
j = 0;
do
{
buffer[j++] = (char)self->current;
buffer[j] = NIL;
self->InStream(self, NULL);
}
while ((j < (int)sizeof(buffer)) && (mblen(buffer, (size_t)j) != j));
}
if (target)
{
size = mbtowc(&wch, buffer, sizeof(buffer));
if (size > 0)
target[i] = wch;
}
amount += size;
self->InStream(self, NULL);
}
return amount;
}
#endif /* TRIO_WIDECHAR */
/*************************************************************************
* TrioReadWideString [private]
*/
#if TRIO_WIDECHAR
static BOOLEAN_T
TrioReadWideString(trio_T *self,
wchar_t *target,
unsigned long flags,
int width)
{
int i;
int size;
assert(VALID(self));
assert(VALID(self->InStream));
TrioSkipWhitespaces(self);
#if defined(TRIO_COMPILER_SUPPORTS_MULTIBYTE)
mblen(NULL, 0);
#endif
/*
* Continue until end of string is reached, a whitespace is encountered,
* or width is exceeded
*/
for (i = 0;
((width == NO_WIDTH) || (i < width)) &&
(! ((self->current == EOF) || isspace(self->current)));
)
{
size = TrioReadWideChar(self, &target[i], flags, 1);
if (size == 0)
break; /* for */
i += size;
}
if (target)
target[i] = L'\0';
return TRUE;
}
#endif /* TRIO_WIDECHAR */
/*************************************************************************
* TrioReadGroup [private]
*
* FIXME: characterclass does not work with multibyte characters
*/
static BOOLEAN_T
TrioReadGroup(trio_T *self,
char *target,
int *characterclass,
unsigned long flags,
int width)
{
int ch;
int i;
assert(VALID(self));
assert(VALID(self->InStream));
ch = self->current;
for (i = 0;
((width == NO_WIDTH) || (i < width)) &&
(! ((ch == EOF) ||
(((flags & FLAGS_EXCLUDE) != 0) ^ (characterclass[ch] == 0))));
i++)
{
if (target)
target[i] = (char)ch;
self->InStream(self, &ch);
}
if (target)
target[i] = NIL;
return TRUE;
}
/*************************************************************************
* TrioReadDouble [private]
*
* FIXME:
* add long double
*/
static BOOLEAN_T
TrioReadDouble(trio_T *self,
double *target,
unsigned long flags,
int width)
{
int ch;
char doubleString[512] = "";
int index = 0;
int start;
int j;
BOOLEAN_T isHex = FALSE;
if ((width == NO_WIDTH) || (width > (int)sizeof(doubleString) - 1))
width = sizeof(doubleString) - 1;
TrioSkipWhitespaces(self);
/*
* Read entire double number from stream. StrToDouble requires a
* string as input, but InStream can be anything, so we have to
* collect all characters.
*/
ch = self->current;
if ((ch == '+') || (ch == '-'))
{
doubleString[index++] = (char)ch;
self->InStream(self, &ch);
width--;
}
start = index;
switch (ch)
{
case 'n':
case 'N':
/* Not-a-number */
if (index != 0)
break;
/* FALLTHROUGH */
case 'i':
case 'I':
/* Infinity */
while (isalpha(ch) && (index - start < width))
{
doubleString[index++] = (char)ch;
self->InStream(self, &ch);
}
doubleString[index] = NIL;
/* Case insensitive string comparison */
if (StrEqual(&doubleString[start], INFINITE_UPPER) ||
StrEqual(&doubleString[start], LONG_INFINITE_UPPER))
{
*target = ((start == 1 && doubleString[0] == '-'))
? -HUGE_VAL
: HUGE_VAL;
return TRUE;
}
if (StrEqual(doubleString, NAN_LOWER))
{
/* NaN must not have a preceeding + nor - */
*target = TrioGenerateNaN();
return TRUE;
}
return FALSE;
default:
break;
}
if (ch == '0')
{
doubleString[index++] = (char)ch;
self->InStream(self, &ch);
if (toupper(ch) == 'X')
{
isHex = TRUE;
doubleString[index++] = (char)ch;
self->InStream(self, &ch);
}
}
while ((ch != EOF) && (index - start < width))
{
/* Integer part */
if (isHex ? isxdigit(ch) : isdigit(ch))
{
doubleString[index++] = (char)ch;
self->InStream(self, &ch);
}
else if (flags & FLAGS_QUOTE)
{
/* Compare with thousands separator */
for (j = 0; internalThousandSeparator[j] && self->current; j++)
{
if (internalThousandSeparator[j] != self->current)
break;
self->InStream(self, &ch);
}
if (internalThousandSeparator[j])
break; /* Mismatch */
else
continue; /* Match */
}
else
break; /* while */
}
if (ch == '.')
{
/* Decimal part */
doubleString[index++] = (char)ch;
self->InStream(self, &ch);
while ((isHex ? isxdigit(ch) : isdigit(ch)) &&
(index - start < width))
{
doubleString[index++] = (char)ch;
self->InStream(self, &ch);
}
if (isHex ? (toupper(ch) == 'P') : (toupper(ch) == 'E'))
{
/* Exponent */
doubleString[index++] = (char)ch;
self->InStream(self, &ch);
if ((ch == '+') || (ch == '-'))
{
doubleString[index++] = (char)ch;
self->InStream(self, &ch);
}
while ((isHex ? isxdigit(ch) : isdigit(ch)) &&
(index - start < width))
{
doubleString[index++] = (char)ch;
self->InStream(self, &ch);
}
}
}
if ((index == start) || (*doubleString == NIL))
return FALSE;
if (flags & FLAGS_LONGDOUBLE)
/* *longdoublePointer = StrToLongDouble()*/
return FALSE; /* FIXME: Remove when long double is implemented */
else
{
*target = StrToDouble(doubleString, NULL);
}
return TRUE;
}
/*************************************************************************
* TrioReadPointer [private]
*/
static BOOLEAN_T
TrioReadPointer(trio_T *self,
void **target,
unsigned long flags)
{
trio_uintmax_t number;
char buffer[sizeof(null)];
flags |= (FLAGS_UNSIGNED | FLAGS_ALTERNATIVE | FLAGS_NILPADDING);
if (TrioReadNumber(self,
&number,
flags,
POINTER_WIDTH,
BASE_HEX))
{
/*
* The strange assignment of number is a workaround for a compiler
* warning
*/
if (target)
*target = (char *)0 + number;
return TRUE;
}
else if (TrioReadString(self,
(flags & FLAGS_IGNORE)
? NULL
: buffer,
0,
sizeof(null) - 1))
{
if (StrEqualCase(buffer, null))
{
if (target)
*target = NULL;
return TRUE;
}
}
return FALSE;
}
/*************************************************************************
* TrioScan [private]
*/
static int
TrioScan(const void *source,
size_t sourceSize,
void (*InStream)(trio_T *, int *),
const char *format,
va_list arglist,
void **argarray)
{
#if defined(TRIO_COMPILER_SUPPORTS_MULTIBYTE)
int charlen;
#endif
int status;
int assignment;
parameter_T parameters[MAX_PARAMETERS];
trio_T internalData;
trio_T *data;
int ch;
int cnt;
int index; /* Index of format string */
int i; /* Index of current parameter */
unsigned long flags;
int width;
int base;
void *pointer;
assert(VALID(InStream));
assert(VALID(format));
memset(&internalData, 0, sizeof(internalData));
data = &internalData;
data->InStream = InStream;
data->location = (void *)source;
data->max = sourceSize;
#if defined(USE_LOCALE)
if (NULL == internalLocaleValues)
{
TrioSetLocale();
}
#endif
status = TrioPreprocess(TYPE_SCAN, format, parameters, arglist, argarray);
if (status < 0)
return status;
assignment = 0;
i = 0;
index = 0;
data->InStream(data, &ch);
#if defined(TRIO_COMPILER_SUPPORTS_MULTIBYTE)
mblen(NULL, 0);
#endif
while (format[index])
{
#if defined(TRIO_COMPILER_SUPPORTS_MULTIBYTE)
if (! isascii(format[index]))
{
charlen = mblen(&format[index], MB_LEN_MAX);
/* Compare multibyte characters in format string */
for (cnt = 0; cnt < charlen - 1; cnt++)
{
if (ch != format[index + cnt])
{
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
}
data->InStream(data, &ch);
}
continue; /* while */
}
#endif /* TRIO_COMPILER_SUPPORTS_MULTIBYTE */
if (EOF == ch)
return EOF;
if (CHAR_IDENTIFIER == format[index])
{
if (CHAR_IDENTIFIER == format[index + 1])
{
/* Two % in format matches one % in input stream */
if (CHAR_IDENTIFIER == ch)
{
data->InStream(data, &ch);
index += 2;
continue; /* while format chars left */
}
else
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
}
/* Skip the parameter entries */
while (parameters[i].type == FORMAT_PARAMETER)
i++;
flags = parameters[i].flags;
/* Find width */
width = parameters[i].width;
if (flags & FLAGS_WIDTH_PARAMETER)
{
/* Get width from parameter list */
width = (int)parameters[width].data.number.as_signed;
}
/* Find base */
base = parameters[i].base;
if (flags & FLAGS_BASE_PARAMETER)
{
/* Get base from parameter list */
base = (int)parameters[base].data.number.as_signed;
}
switch (parameters[i].type)
{
case FORMAT_INT:
{
trio_uintmax_t number;
if (0 == base)
base = BASE_DECIMAL;
if (!TrioReadNumber(data,
&number,
flags,
width,
base))
return assignment;
assignment++;
if (!(flags & FLAGS_IGNORE))
{
pointer = parameters[i].data.pointer;
#if defined(QUALIFIER_SIZE_T) || defined(QUALIFIER_SIZE_T_UPPER)
if (flags & FLAGS_SIZE_T)
*(size_t *)pointer = (size_t)number;
else
#endif
#if defined(QUALIFIER_PTRDIFF_T)
if (flags & FLAGS_PTRDIFF_T)
*(ptrdiff_t *)pointer = (ptrdiff_t)number;
else
#endif
#if defined(QUALIFIER_INTMAX_T)
if (flags & FLAGS_INTMAX_T)
*(trio_intmax_t *)pointer = (trio_intmax_t)number;
else
#endif
if (flags & FLAGS_QUAD)
*(trio_ulonglong_t *)pointer = (trio_ulonglong_t)number;
else if (flags & FLAGS_LONG)
*(long int *)pointer = (long int)number;
else if (flags & FLAGS_SHORT)
*(short int *)pointer = (short int)number;
else
*(int *)pointer = (int)number;
}
}
break; /* FORMAT_INT */
case FORMAT_STRING:
#if TRIO_WIDECHAR
if (flags & FLAGS_WIDECHAR)
{
if (!TrioReadWideString(data,
(flags & FLAGS_IGNORE)
? NULL
: parameters[i].data.wstring,
flags,
width))
return assignment;
}
else
#endif
{
if (!TrioReadString(data,
(flags & FLAGS_IGNORE)
? NULL
: parameters[i].data.string,
flags,
width))
return assignment;
}
assignment++;
break; /* FORMAT_STRING */
case FORMAT_DOUBLE:
if (!TrioReadDouble(data,
(flags & FLAGS_IGNORE)
? NULL
: parameters[i].data.doublePointer,
flags,
width))
return assignment;
assignment++;
break; /* FORMAT_DOUBLE */
case FORMAT_GROUP:
{
int characterclass[MAX_CHARACTER_CLASS + 1];
int rc;
/* Skip over modifiers */
while (format[index] != SPECIFIER_GROUP)
{
index++;
}
/* Skip over group specifier */
index++;
memset(characterclass, 0, sizeof(characterclass));
rc = TrioGetCharacterClass(format,
&index,
&flags,
characterclass);
if (rc < 0)
return rc;
if (!TrioReadGroup(data,
(flags & FLAGS_IGNORE)
? NULL
: parameters[i].data.string,
characterclass,
flags,
parameters[i].width))
return assignment;
assignment++;
}
break; /* FORMAT_GROUP */
case FORMAT_COUNT:
pointer = parameters[i].data.pointer;
if (NULL != pointer)
{
#if defined(QUALIFIER_SIZE_T) || defined(QUALIFIER_SIZE_T_UPPER)
if (flags & FLAGS_SIZE_T)
*(size_t *)pointer = (size_t)data->committed;
else
#endif
#if defined(QUALIFIER_PTRDIFF_T)
if (flags & FLAGS_PTRDIFF_T)
*(ptrdiff_t *)pointer = (ptrdiff_t)data->committed;
else
#endif
#if defined(QUALIFIER_INTMAX_T)
if (flags & FLAGS_INTMAX_T)
*(trio_intmax_t *)pointer = (trio_intmax_t)data->committed;
else
#endif
if (flags & FLAGS_QUAD)
{
*(trio_ulonglong_t *)pointer = (trio_ulonglong_t)data->committed;
}
else if (flags & FLAGS_LONG)
{
*(long int *)pointer = (long int)data->committed;
}
else if (flags & FLAGS_SHORT)
{
*(short int *)pointer = (short int)data->committed;
}
else
{
*(int *)pointer = (int)data->committed;
}
}
break; /* FORMAT_COUNT */
case FORMAT_CHAR:
#if TRIO_WIDECHAR
if (flags & FLAGS_WIDECHAR)
{
if (TrioReadWideChar(data,
(flags & FLAGS_IGNORE)
? NULL
: parameters[i].data.wstring,
flags,
(width == NO_WIDTH) ? 1 : width) > 0)
return assignment;
}
else
#endif
{
if (TrioReadChar(data,
(flags & FLAGS_IGNORE)
? NULL
: parameters[i].data.string,
flags,
(width == NO_WIDTH) ? 1 : width) > 0)
return assignment;
}
assignment++;
break; /* FORMAT_CHAR */
case FORMAT_POINTER:
if (!TrioReadPointer(data,
(flags & FLAGS_IGNORE)
? NULL
: (void **)parameters[i].data.pointer,
flags))
return assignment;
assignment++;
break; /* FORMAT_POINTER */
case FORMAT_PARAMETER:
break; /* FORMAT_PARAMETER */
default:
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
}
ch = data->current;
index = parameters[i].indexAfterSpecifier;
i++;
}
else /* Not an % identifier */
{
if (isspace((int)format[index]))
{
/* Whitespaces may match any amount of whitespaces */
ch = TrioSkipWhitespaces(data);
}
else if (ch == format[index])
{
data->InStream(data, &ch);
}
else
return TRIO_ERROR_RETURN(TRIO_EINVAL, index);
index++;
}
}
return assignment;
}
/*************************************************************************
* TrioInStreamFile [private]
*/
static void
TrioInStreamFile(trio_T *self,
int *intPointer)
{
FILE *file = (FILE *)self->location;
assert(VALID(self));
assert(VALID(file));
self->current = fgetc(file);
self->processed++;
self->committed++;
if (VALID(intPointer))
{
*intPointer = self->current;
}
}
/*************************************************************************
* TrioInStreamFileDescriptor [private]
*/
static void
TrioInStreamFileDescriptor(trio_T *self,
int *intPointer)
{
int fd = *((int *)self->location);
int size;
unsigned char input;
assert(VALID(self));
size = read(fd, &input, sizeof(char));
self->current = (size == 0) ? EOF : input;
self->processed++;
self->committed++;
if (VALID(intPointer))
{
*intPointer = self->current;
}
}
/*************************************************************************
* TrioInStreamString [private]
*/
static void
TrioInStreamString(trio_T *self,
int *intPointer)
{
unsigned char **buffer;
assert(VALID(self));
assert(VALID(self->InStream));
assert(VALID(self->location));
buffer = (unsigned char **)self->location;
self->current = (*buffer)[0];
if (self->current == NIL)
self->current = EOF;
(*buffer)++;
self->processed++;
self->committed++;
if (VALID(intPointer))
{
*intPointer = self->current;
}
}
/*************************************************************************
* scanf
*/
int
trio_scanf(const char *format,
...)
{
int status;
va_list args;
assert(VALID(format));
va_start(args, format);
status = TrioScan(stdin, 0, TrioInStreamFile, format, args, NULL);
va_end(args);
return status;
}
int
trio_vscanf(const char *format,
va_list args)
{
assert(VALID(format));
return TrioScan(stdin, 0, TrioInStreamFile, format, args, NULL);
}
int
trio_scanfv(const char *format,
void **args)
{
va_list dummy;
assert(VALID(format));
return TrioScan(stdin, 0, TrioInStreamFile, format, dummy, args);
}
/*************************************************************************
* fscanf
*/
int
trio_fscanf(FILE *file,
const char *format,
...)
{
int status;
va_list args;
assert(VALID(file));
assert(VALID(format));
va_start(args, format);
status = TrioScan(file, 0, TrioInStreamFile, format, args, NULL);
va_end(args);
return status;
}
int
trio_vfscanf(FILE *file,
const char *format,
va_list args)
{
assert(VALID(file));
assert(VALID(format));
return TrioScan(file, 0, TrioInStreamFile, format, args, NULL);
}
int
trio_fscanfv(FILE *file,
const char *format,
void **args)
{
va_list dummy;
assert(VALID(file));
assert(VALID(format));
return TrioScan(file, 0, TrioInStreamFile, format, dummy, args);
}
/*************************************************************************
* dscanf
*/
int
trio_dscanf(int fd,
const char *format,
...)
{
int status;
va_list args;
assert(VALID(format));
va_start(args, format);
status = TrioScan(&fd, 0, TrioInStreamFileDescriptor, format, args, NULL);
va_end(args);
return status;
}
int
trio_vdscanf(int fd,
const char *format,
va_list args)
{
assert(VALID(format));
return TrioScan(&fd, 0, TrioInStreamFileDescriptor, format, args, NULL);
}
int
trio_dscanfv(int fd,
const char *format,
void **args)
{
va_list dummy;
assert(VALID(format));
return TrioScan(&fd, 0, TrioInStreamFileDescriptor, format, dummy, args);
}
/*************************************************************************
* sscanf
*/
int
trio_sscanf(const char *buffer,
const char *format,
...)
{
int status;
va_list args;
assert(VALID(buffer));
assert(VALID(format));
va_start(args, format);
status = TrioScan(&buffer, 0, TrioInStreamString, format, args, NULL);
va_end(args);
return status;
}
int
trio_vsscanf(const char *buffer,
const char *format,
va_list args)
{
assert(VALID(buffer));
assert(VALID(format));
return TrioScan(&buffer, 0, TrioInStreamString, format, args, NULL);
}
int
trio_sscanfv(const char *buffer,
const char *format,
void **args)
{
va_list dummy;
assert(VALID(buffer));
assert(VALID(format));
return TrioScan(&buffer, 0, TrioInStreamString, format, dummy, args);
}