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[/] [openrisc/] [trunk/] [gnu-old/] [newlib-1.17.0/] [newlib/] [libc/] [stdio/] [sprintf.c] - Rev 868
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/* * Copyright (c) 1990 The Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that the above copyright notice and this paragraph are * duplicated in all such forms and that any documentation, * advertising materials, and other materials related to such * distribution and use acknowledge that the software was developed * by the University of California, Berkeley. The name of the * University may not be used to endorse or promote products derived * from this software without specific prior written permission. * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. */ /* FUNCTION <<sprintf>>, <<fprintf>>, <<printf>>, <<snprintf>>, <<asprintf>>, <<asnprintf>>---format output INDEX fprintf INDEX _fprintf_r INDEX printf INDEX _printf_r INDEX asprintf INDEX _asprintf_r INDEX sprintf INDEX _sprintf_r INDEX snprintf INDEX _snprintf_r INDEX asnprintf INDEX _asnprintf_r ANSI_SYNOPSIS #include <stdio.h> int printf(const char *<[format]>, ...); int fprintf(FILE *<[fd]>, const char *<[format]>, ...); int sprintf(char *<[str]>, const char *<[format]>, ...); int snprintf(char *<[str]>, size_t <[size]>, const char *<[format]>, ...); int asprintf(char **<[strp]>, const char *<[format]>, ...); char *asnprintf(char *<[str]>, size_t *<[size]>, const char *<[format]>, ...); int _printf_r(struct _reent *<[ptr]>, const char *<[format]>, ...); int _fprintf_r(struct _reent *<[ptr]>, FILE *<[fd]>, const char *<[format]>, ...); int _sprintf_r(struct _reent *<[ptr]>, char *<[str]>, const char *<[format]>, ...); int _snprintf_r(struct _reent *<[ptr]>, char *<[str]>, size_t <[size]>, const char *<[format]>, ...); int _asprintf_r(struct _reent *<[ptr]>, char **<[strp]>, const char *<[format]>, ...); char *_asnprintf_r(struct _reent *<[ptr]>, char *<[str]>, size_t *<[size]>, const char *<[format]>, ...); DESCRIPTION <<printf>> accepts a series of arguments, applies to each a format specifier from <<*<[format]>>>, and writes the formatted data to <<stdout>>, without a terminating NUL character. The behavior of <<printf>> is undefined if there are not enough arguments for the format. <<printf>> returns when it reaches the end of the format string. If there are more arguments than the format requires, excess arguments are ignored. <<fprintf>> is like <<printf>>, except that output is directed to the stream <[fd]> rather than <<stdout>>. <<sprintf>> is like <<printf>>, except that output is directed to the buffer <[str]>, and a terminating NUL is output. Behavior is undefined if more output is generated than the buffer can hold. <<snprintf>> is like <<sprintf>>, except that output is limited to at most <[size]> bytes, including the terminating <<NUL>>. As a special case, if <[size]> is 0, <[str]> can be NULL, and <<snprintf>> merely calculates how many bytes would be printed. <<asprintf>> is like <<sprintf>>, except that the output is stored in a dynamically allocated buffer, <[pstr]>, which should be freed later with <<free>>. <<asnprintf>> is like <<sprintf>>, except that the return type is either the original <[str]> if it was large enough, or a dynamically allocated string if the output exceeds *<[size]>; the length of the result is returned in *<[size]>. When dynamic allocation occurs, the contents of the original <[str]> may have been modified. For <<sprintf>>, <<snprintf>>, and <<asnprintf>>, the behavior is undefined if the output <<*<[str]>>> overlaps with one of the arguments. Behavior is also undefined if the argument for <<%n>> within <<*<[format]>>> overlaps another argument. <[format]> is a pointer to a character string containing two types of objects: ordinary characters (other than <<%>>), which are copied unchanged to the output, and conversion specifications, each of which is introduced by <<%>>. (To include <<%>> in the output, use <<%%>> in the format string.) A conversion specification has the following form: . %[<[pos]>][<[flags]>][<[width]>][.<[prec]>][<[size]>]<[type]> The fields of the conversion specification have the following meanings: O+ o <[pos]> Conversions normally consume arguments in the order that they are presented. However, it is possible to consume arguments out of order, and reuse an argument for more than one conversion specification (although the behavior is undefined if the same argument is requested with different types), by specifying <[pos]>, which is a decimal integer followed by '$'. The integer must be between 1 and <NL_ARGMAX> from limits.h, and if argument <<%n$>> is requested, all earlier arguments must be requested somewhere within <[format]>. If positional parameters are used, then all conversion specifications except for <<%%>> must specify a position. o <[flags]> <[flags]> is an optional sequence of characters which control output justification, numeric signs, decimal points, trailing zeros, and octal and hex prefixes. The flag characters are minus (<<->>), plus (<<+>>), space ( ), zero (<<0>>), sharp (<<#>>), and quote (<<'>>). They can appear in any combination, although not all flags can be used for all conversion specification types. o+ o ' Since newlib only supports the C locale, this flag has no effect in this implementation. But in other locales, when <[type]> is <<i>>, <<d>>, <<u>>, <<f>>, <<F>>, <<g>>, or <<G>>, the locale-dependent thousand's separator is inserted prior to zero padding. o - The result of the conversion is left justified, and the right is padded with blanks. If you do not use this flag, the result is right justified, and padded on the left. o + The result of a signed conversion (as determined by <[type]> of <<d>>, <<i>>, <<a>>, <<A>>, <<e>>, <<E>>, <<f>>, <<F>>, <<g>>, or <<G>>) will always begin with a plus or minus sign. (If you do not use this flag, positive values do not begin with a plus sign.) o " " (space) If the first character of a signed conversion specification is not a sign, or if a signed conversion results in no characters, the result will begin with a space. If the space ( ) flag and the plus (<<+>>) flag both appear, the space flag is ignored. o 0 If the <[type]> character is <<d>>, <<i>>, <<o>>, <<u>>, <<x>>, <<X>>, <<a>>, <<A>>, <<e>>, <<E>>, <<f>>, <<g>>, or <<G>>: leading zeros are used to pad the field width (following any indication of sign or base); no spaces are used for padding. If the zero (<<0>>) and minus (<<->>) flags both appear, the zero (<<0>>) flag will be ignored. For <<d>>, <<i>>, <<o>>, <<u>>, <<x>>, and <<X>> conversions, if a precision <[prec]> is specified, the zero (<<0>>) flag is ignored. Note that <<0>> is interpreted as a flag, not as the beginning of a field width. o # The result is to be converted to an alternative form, according to the <[type]> character: o+ o o Increases precision to force the first digit of the result to be a zero. o x A non-zero result will have a <<0x>> prefix. o X A non-zero result will have a <<0X>> prefix. o a, A, e, E, f, or F The result will always contain a decimal point even if no digits follow the point. (Normally, a decimal point appears only if a digit follows it.) Trailing zeros are removed. o g or G The result will always contain a decimal point even if no digits follow the point. Trailing zeros are not removed. o all others Undefined. o- o- o <[width]> <[width]> is an optional minimum field width. You can either specify it directly as a decimal integer, or indirectly by using instead an asterisk (<<*>>), in which case an <<int>> argument is used as the field width. If positional arguments are used, then the width must also be specified positionally as <<*m$>>, with m as a decimal integer. Negative field widths are treated as specifying the minus (<<->>) flag for left justfication, along with a positive field width. The resulting format may be wider than the specified width. o <[prec]> <[prec]> is an optional field; if present, it is introduced with `<<.>>' (a period). You can specify the precision either directly as a decimal integer or indirectly by using an asterisk (<<*>>), in which case an <<int>> argument is used as the precision. If positional arguments are used, then the precision must also be specified positionally as <<*m$>>, with m as a decimal integer. Supplying a negative precision is equivalent to omitting the precision. If only a period is specified the precision is zero. The effect depends on the conversion <[type]>. o+ o d, i, o, u, x, or X Minimum number of digits to appear. If no precision is given, defaults to 1. o a or A Number of digits to appear after the decimal point. If no precision is given, the precision defaults to the minimum needed for an exact representation. o e, E, f or F Number of digits to appear after the decimal point. If no precision is given, the precision defaults to 6. o g or G Maximum number of significant digits. A precision of 0 is treated the same as a precision of 1. If no precision is given, the precision defaults to 6. o s or S Maximum number of characters to print from the string. If no precision is given, the entire string is printed. o all others undefined. o- o <[size]> <[size]> is an optional modifier that changes the data type that the corresponding argument has. Behavior is unspecified if a size is given that does not match the <[type]>. o+ o hh With <<d>>, <<i>>, <<o>>, <<u>>, <<x>>, or <<X>>, specifies that the argument should be converted to a <<signed char>> or <<unsigned char>> before printing. With <<n>>, specifies that the argument is a pointer to a <<signed char>>. o h With <<d>>, <<i>>, <<o>>, <<u>>, <<x>>, or <<X>>, specifies that the argument should be converted to a <<short>> or <<unsigned short>> before printing. With <<n>>, specifies that the argument is a pointer to a <<short>>. o l With <<d>>, <<i>>, <<o>>, <<u>>, <<x>>, or <<X>>, specifies that the argument is a <<long>> or <<unsigned long>>. With <<c>>, specifies that the argument has type <<wint_t>>. With <<s>>, specifies that the argument is a pointer to <<wchar_t>>. With <<n>>, specifies that the argument is a pointer to a <<long>>. With <<a>>, <<A>>, <<e>>, <<E>>, <<f>>, <<F>>, <<g>>, or <<G>>, has no effect (because of vararg promotion rules, there is no need to distinguish between <<float>> and <<double>>). o ll With <<d>>, <<i>>, <<o>>, <<u>>, <<x>>, or <<X>>, specifies that the argument is a <<long long>> or <<unsigned long long>>. With <<n>>, specifies that the argument is a pointer to a <<long long>>. o j With <<d>>, <<i>>, <<o>>, <<u>>, <<x>>, or <<X>>, specifies that the argument is an <<intmax_t>> or <<uintmax_t>>. With <<n>>, specifies that the argument is a pointer to an <<intmax_t>>. o z With <<d>>, <<i>>, <<o>>, <<u>>, <<x>>, or <<X>>, specifies that the argument is a <<ssize_t>> or <<size_t>>. With <<n>>, specifies that the argument is a pointer to a <<ssize_t>>. o t With <<d>>, <<i>>, <<o>>, <<u>>, <<x>>, or <<X>>, specifies that the argument is a <<ptrdiff_t>>. With <<n>>, specifies that the argument is a pointer to a <<ptrdiff_t>>. o L With <<a>>, <<A>>, <<e>>, <<E>>, <<f>>, <<F>>, <<g>>, or <<G>>, specifies that the argument is a <<long double>>. o- o <[type]> <[type]> specifies what kind of conversion <<printf>> performs. Here is a table of these: o+ o % Prints the percent character (<<%>>). o c Prints <[arg]> as single character. If the <<l>> size specifier is in effect, a multibyte character is printed. o C Short for <<%lc>>. o s Prints the elements of a pointer to <<char>> until the precision or a null character is reached. If the <<l>> size specifier is in effect, the pointer is to an array of <<wchar_t>>, and the string is converted to multibyte characters before printing. o S Short for <<%ls>>. o d or i Prints a signed decimal integer; takes an <<int>>. Leading zeros are inserted as necessary to reach the precision. A precision of 0 produces an empty string. o D Newlib extension, short for <<%ld>>. o o Prints an unsigned octal integer; takes an <<unsigned>>. Leading zeros are inserted as necessary to reach the precision. A precision of 0 produces an empty string. o O Newlib extension, short for <<%lo>>. o u Prints an unsigned decimal integer; takes an <<unsigned>>. Leading zeros are inserted as necessary to reach the precision. A precision of 0 produces an empty string. o U Newlib extension, short for <<%lu>>. o x Prints an unsigned hexadecimal integer (using <<abcdef>> as digits beyond <<9>>); takes an <<unsigned>>. Leading zeros are inserted as necessary to reach the precision. A precision of 0 produces an empty string. o X Like <<x>>, but uses <<ABCDEF>> as digits beyond <<9>>. o f Prints a signed value of the form <<[-]9999.9999>>, with the precision determining how many digits follow the decimal point; takes a <<double>> (remember that <<float>> promotes to <<double>> as a vararg). The low order digit is rounded to even. If the precision results in at most DECIMAL_DIG digits, the result is rounded correctly; if more than DECIMAL_DIG digits are printed, the result is only guaranteed to round back to the original value. If the value is infinite, the result is <<inf>>, and no zero padding is performed. If the value is not a number, the result is <<nan>>, and no zero padding is performed. o F Like <<f>>, but uses <<INF>> and <<NAN>> for non-finite numbers. o e Prints a signed value of the form <<[-]9.9999e[+|-]999>>; takes a <<double>>. The digit before the decimal point is non-zero if the value is non-zero. The precision determines how many digits appear between <<.>> and <<e>>, and the exponent always contains at least two digits. The value zero has an exponent of zero. If the value is not finite, it is printed like <<f>>. o E Like <<e>>, but using <<E>> to introduce the exponent, and like <<F>> for non-finite values. o g Prints a signed value in either <<f>> or <<e>> form, based on the given value and precision---an exponent less than -4 or greater than the precision selects the <<e>> form. Trailing zeros and the decimal point are printed only if necessary; takes a <<double>>. o G Like <<g>>, except use <<F>> or <<E>> form. o a Prints a signed value of the form <<[-]0x1.ffffp[+|-]9>>; takes a <<double>>. The letters <<abcdef>> are used for digits beyond <<9>>. The precision determines how many digits appear after the decimal point. The exponent contains at least one digit, and is a decimal value representing the power of 2; a value of 0 has an exponent of 0. Non-finite values are printed like <<f>>. o A Like <<a>>, except uses <<X>>, <<P>>, and <<ABCDEF>> instead of lower case. o n Takes a pointer to <<int>>, and stores a count of the number of bytes written so far. No output is created. o p Takes a pointer to <<void>>, and prints it in an implementation-defined format. This implementation is similar to <<%#tx>>), except that <<0x>> appears even for the NULL pointer. o- O- <<_printf_r>>, <<_fprintf_r>>, <<_asprintf_r>>, <<_sprintf_r>>, <<_snprintf_r>>, <<_asnprintf_r>> are simply reentrant versions of the functions above. RETURNS On success, <<sprintf>> and <<asprintf>> return the number of bytes in the output string, except the concluding <<NUL>> is not counted. <<snprintf>> returns the number of bytes that would be in the output string, except the concluding <<NUL>> is not counted. <<printf>> and <<fprintf>> return the number of characters transmitted. <<asnprintf>> returns the original <[str]> if there was enough room, otherwise it returns an allocated string. If an error occurs, the result of <<printf>>, <<fprintf>>, <<snprintf>>, and <<asprintf>> is a negative value, and the result of <<asnprintf>> is NULL. No error returns occur for <<sprintf>>. For <<printf>> and <<fprintf>>, <<errno>> may be set according to <<fputc>>. For <<asprintf>> and <<asnprintf>>, <<errno>> may be set to ENOMEM if allocation fails, and for <<snprintf>>, <<errno>> may be set to EOVERFLOW if <[size]> or the output length exceeds INT_MAX. PORTABILITY ANSI C requires <<printf>>, <<fprintf>>, <<sprintf>>, and <<snprintf>>. <<asprintf>> and <<asnprintf>> are newlib extensions. The ANSI C standard specifies that implementations must support at least formatted output of up to 509 characters. This implementation has no inherent limit. Depending on how newlib was configured, not all format specifiers are supported. Supporting OS subroutines required: <<close>>, <<fstat>>, <<isatty>>, <<lseek>>, <<read>>, <<sbrk>>, <<write>>. */ #include <_ansi.h> #include <reent.h> #include <stdio.h> #ifdef _HAVE_STDC #include <stdarg.h> #else #include <varargs.h> #endif #include <limits.h> #include "local.h" int #ifdef _HAVE_STDC _DEFUN(_sprintf_r, (ptr, str, fmt), struct _reent *ptr _AND char *str _AND _CONST char *fmt _DOTS) #else _sprintf_r(ptr, str, fmt, va_alist) struct _reent *ptr; char *str; _CONST char *fmt; va_dcl #endif { int ret; va_list ap; FILE f; f._flags = __SWR | __SSTR; f._bf._base = f._p = (unsigned char *) str; f._bf._size = f._w = INT_MAX; f._file = -1; /* No file. */ #ifdef _HAVE_STDC va_start (ap, fmt); #else va_start (ap); #endif ret = _svfprintf_r (ptr, &f, fmt, ap); va_end (ap); *f._p = 0; return (ret); } #ifndef _REENT_ONLY int #ifdef _HAVE_STDC _DEFUN(sprintf, (str, fmt), char *str _AND _CONST char *fmt _DOTS) #else sprintf(str, fmt, va_alist) char *str; _CONST char *fmt; va_dcl #endif { int ret; va_list ap; FILE f; f._flags = __SWR | __SSTR; f._bf._base = f._p = (unsigned char *) str; f._bf._size = f._w = INT_MAX; f._file = -1; /* No file. */ #ifdef _HAVE_STDC va_start (ap, fmt); #else va_start (ap); #endif ret = _svfprintf_r (_REENT, &f, fmt, ap); va_end (ap); *f._p = 0; return (ret); } #endif
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