mirror of
https://github.com/nothings/stb
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1081 lines
39 KiB
C
1081 lines
39 KiB
C
// stb_sprintf - v1.01 - public domain snprintf() implementation
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// originally by Jeff Roberts / RAD Game Tools, 2015/10/20
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// http://github.com/nothings/stb
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//
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// allowed types: sc uidBboXx p AaGgEef n
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// lengths : h ll j z t I64 I32 I
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//
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// Contributors (bugfixes):
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// github:d26435
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// github:trex78
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#ifndef STB_SPRINTF_H_INCLUDE
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#define STB_SPRINTF_H_INCLUDE
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/*
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Single file sprintf replacement.
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Originally written by Jeff Roberts at RAD Game Tools - 2015/10/20.
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Hereby placed in public domain.
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This is a full sprintf replacement that supports everything that
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the C runtime sprintfs support, including float/double, 64-bit integers,
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hex floats, field parameters (%*.*d stuff), length reads backs, etc.
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Why would you need this if sprintf already exists? Well, first off,
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it's *much* faster (see below). It's also much smaller than the CRT
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versions code-space-wise. We've also added some simple improvements
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that are super handy (commas in thousands, callbacks at buffer full,
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for example). Finally, the format strings for MSVC and GCC differ
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for 64-bit integers (among other small things), so this lets you use
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the same format strings in cross platform code.
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It uses the standard single file trick of being both the header file
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and the source itself. If you just include it normally, you just get
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the header file function definitions. To get the code, you include
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it from a C or C++ file and define STB_SPRINTF_IMPLEMENTATION first.
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It only uses va_args macros from the C runtime to do it's work. It
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does cast doubles to S64s and shifts and divides U64s, which does
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drag in CRT code on most platforms.
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It compiles to roughly 8K with float support, and 4K without.
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As a comparison, when using MSVC static libs, calling sprintf drags
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in 16K.
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API:
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====
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int stbsp_sprintf( char * buf, char const * fmt, ... )
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int stbsp_snprintf( char * buf, int count, char const * fmt, ... )
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Convert an arg list into a buffer. stbsp_snprintf always returns
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a zero-terminated string (unlike regular snprintf).
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int stbsp_vsprintf( char * buf, char const * fmt, va_list va )
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int stbsp_vsnprintf( char * buf, int count, char const * fmt, va_list va )
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Convert a va_list arg list into a buffer. stbsp_vsnprintf always returns
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a zero-terminated string (unlike regular snprintf).
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int stbsp_vsprintfcb( STBSP_SPRINTFCB * callback, void * user, char * buf, char const * fmt, va_list va )
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typedef char * STBSP_SPRINTFCB( char const * buf, void * user, int len );
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Convert into a buffer, calling back every STB_SPRINTF_MIN chars.
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Your callback can then copy the chars out, print them or whatever.
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This function is actually the workhorse for everything else.
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The buffer you pass in must hold at least STB_SPRINTF_MIN characters.
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// you return the next buffer to use or 0 to stop converting
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void stbsp_set_separators( char comma, char period )
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Set the comma and period characters to use.
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FLOATS/DOUBLES:
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===============
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This code uses a internal float->ascii conversion method that uses
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doubles with error correction (double-doubles, for ~105 bits of
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precision). This conversion is round-trip perfect - that is, an atof
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of the values output here will give you the bit-exact double back.
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One difference is that our insignificant digits will be different than
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with MSVC or GCC (but they don't match each other either). We also
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don't attempt to find the minimum length matching float (pre-MSVC15
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doesn't either).
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If you don't need float or doubles at all, define STB_SPRINTF_NOFLOAT
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and you'll save 4K of code space.
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64-BIT INTS:
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============
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This library also supports 64-bit integers and you can use MSVC style or
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GCC style indicators (%I64d or %lld). It supports the C99 specifiers
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for size_t and ptr_diff_t (%jd %zd) as well.
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EXTRAS:
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=======
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Like some GCCs, for integers and floats, you can use a ' (single quote)
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specifier and commas will be inserted on the thousands: "%'d" on 12345
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would print 12,345.
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For integers and floats, you can use a "$" specifier and the number
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will be converted to float and then divided to get kilo, mega, giga or
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tera and then printed, so "%$d" 1024 is "1.0 k", "%$.2d" 2536000 is
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"2.42 m", etc.
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In addition to octal and hexadecimal conversions, you can print
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integers in binary: "%b" for 256 would print 100.
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PERFORMANCE vs MSVC 2008 32-/64-bit (GCC is even slower than MSVC):
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===================================================================
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"%d" across all 32-bit ints (4.8x/4.0x faster than 32-/64-bit MSVC)
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"%24d" across all 32-bit ints (4.5x/4.2x faster)
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"%x" across all 32-bit ints (4.5x/3.8x faster)
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"%08x" across all 32-bit ints (4.3x/3.8x faster)
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"%f" across e-10 to e+10 floats (7.3x/6.0x faster)
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"%e" across e-10 to e+10 floats (8.1x/6.0x faster)
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"%g" across e-10 to e+10 floats (10.0x/7.1x faster)
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"%f" for values near e-300 (7.9x/6.5x faster)
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"%f" for values near e+300 (10.0x/9.1x faster)
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"%e" for values near e-300 (10.1x/7.0x faster)
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"%e" for values near e+300 (9.2x/6.0x faster)
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"%.320f" for values near e-300 (12.6x/11.2x faster)
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"%a" for random values (8.6x/4.3x faster)
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"%I64d" for 64-bits with 32-bit values (4.8x/3.4x faster)
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"%I64d" for 64-bits > 32-bit values (4.9x/5.5x faster)
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"%s%s%s" for 64 char strings (7.1x/7.3x faster)
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"...512 char string..." ( 35.0x/32.5x faster!)
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*/
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#if defined(__has_feature)
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#if __has_feature(address_sanitizer)
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#define STBI__ASAN __attribute__((no_sanitize("address")))
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#endif
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#endif
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#ifndef STBI__ASAN
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#define STBI__ASAN
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#endif
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#ifdef STB_SPRINTF_STATIC
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#define STBSP__PUBLICDEC static
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#define STBSP__PUBLICDEF static STBI__ASAN
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#else
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#ifdef __cplusplus
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#define STBSP__PUBLICDEC extern "C"
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#define STBSP__PUBLICDEF extern "C" STBI__ASAN
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#else
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#define STBSP__PUBLICDEC extern
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#define STBSP__PUBLICDEF STBI__ASAN
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#endif
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#endif
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#include <stdarg.h> // for va_list()
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#ifndef STB_SPRINTF_MIN
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#define STB_SPRINTF_MIN 512 // how many characters per callback
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#endif
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typedef char * STBSP_SPRINTFCB( char * buf, void * user, int len );
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#ifndef STB_SPRINTF_DECORATE
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#define STB_SPRINTF_DECORATE(name) stbsp_##name // define this before including if you want to change the names
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#endif
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STBSP__PUBLICDEF int STB_SPRINTF_DECORATE( vsprintf )( char * buf, char const * fmt, va_list va );
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STBSP__PUBLICDEF int STB_SPRINTF_DECORATE( vsnprintf )( char * buf, int count, char const * fmt, va_list va );
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STBSP__PUBLICDEF int STB_SPRINTF_DECORATE( sprintf ) ( char * buf, char const * fmt, ... );
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STBSP__PUBLICDEF int STB_SPRINTF_DECORATE( snprintf )( char * buf, int count, char const * fmt, ... );
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STBSP__PUBLICDEF int STB_SPRINTF_DECORATE( vsprintfcb )( STBSP_SPRINTFCB * callback, void * user, char * buf, char const * fmt, va_list va );
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STBSP__PUBLICDEF void STB_SPRINTF_DECORATE( set_separators )( char comma, char period );
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#endif // STB_SPRINTF_H_INCLUDE
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#ifdef STB_SPRINTF_IMPLEMENTATION
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#include <stdlib.h> // for va_arg()
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#define stbsp__uint32 unsigned int
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#define stbsp__int32 signed int
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#ifdef _MSC_VER
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#define stbsp__uint64 unsigned __int64
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#define stbsp__int64 signed __int64
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#else
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#define stbsp__uint64 unsigned long long
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#define stbsp__int64 signed long long
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#endif
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#define stbsp__uint16 unsigned short
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#ifndef stbsp__uintptr
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#if defined(__ppc64__) || defined(__aarch64__) || defined(_M_X64) || defined(__x86_64__) || defined(__x86_64)
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#define stbsp__uintptr stbsp__uint64
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#else
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#define stbsp__uintptr stbsp__uint32
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#endif
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#endif
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#ifndef STB_SPRINTF_MSVC_MODE // used for MSVC2013 and earlier (MSVC2015 matches GCC)
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#if defined(_MSC_VER) && (_MSC_VER<1900)
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#define STB_SPRINTF_MSVC_MODE
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#endif
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#endif
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#ifdef STB_SPRINTF_NOUNALIGNED // define this before inclusion to force stbsp_sprintf to always use aligned accesses
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#define STBSP__UNALIGNED(code)
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#else
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#define STBSP__UNALIGNED(code) code
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#endif
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#ifndef STB_SPRINTF_NOFLOAT
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// internal float utility functions
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static stbsp__int32 stbsp__real_to_str( char const * * start, stbsp__uint32 * len, char *out, stbsp__int32 * decimal_pos, double value, stbsp__uint32 frac_digits );
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static stbsp__int32 stbsp__real_to_parts( stbsp__int64 * bits, stbsp__int32 * expo, double value );
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#define STBSP__SPECIAL 0x7000
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#endif
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static char stbsp__period='.';
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static char stbsp__comma=',';
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static char stbsp__digitpair[201]="00010203040506070809101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899";
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STBSP__PUBLICDEF void STB_SPRINTF_DECORATE( set_separators )( char pcomma, char pperiod )
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{
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stbsp__period=pperiod;
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stbsp__comma=pcomma;
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}
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STBSP__PUBLICDEF int STB_SPRINTF_DECORATE( vsprintfcb )( STBSP_SPRINTFCB * callback, void * user, char * buf, char const * fmt, va_list va )
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{
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static char hex[]="0123456789abcdefxp";
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static char hexu[]="0123456789ABCDEFXP";
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char * bf;
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char const * f;
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int tlen = 0;
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bf = buf;
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f = fmt;
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for(;;)
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{
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stbsp__int32 fw,pr,tz; stbsp__uint32 fl;
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#define STBSP__LEFTJUST 1
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#define STBSP__LEADINGPLUS 2
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#define STBSP__LEADINGSPACE 4
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#define STBSP__LEADING_0X 8
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#define STBSP__LEADINGZERO 16
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#define STBSP__INTMAX 32
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#define STBSP__TRIPLET_COMMA 64
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#define STBSP__NEGATIVE 128
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#define STBSP__METRIC_SUFFIX 256
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#define STBSP__HALFWIDTH 512
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// macros for the callback buffer stuff
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#define stbsp__chk_cb_bufL(bytes) { int len = (int)(bf-buf); if ((len+(bytes))>=STB_SPRINTF_MIN) { tlen+=len; if (0==(bf=buf=callback(buf,user,len))) goto done; } }
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#define stbsp__chk_cb_buf(bytes) { if ( callback ) { stbsp__chk_cb_bufL(bytes); } }
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#define stbsp__flush_cb() { stbsp__chk_cb_bufL(STB_SPRINTF_MIN-1); } //flush if there is even one byte in the buffer
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#define stbsp__cb_buf_clamp(cl,v) cl = v; if ( callback ) { int lg = STB_SPRINTF_MIN-(int)(bf-buf); if (cl>lg) cl=lg; }
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// fast copy everything up to the next % (or end of string)
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for(;;)
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{
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while (((stbsp__uintptr)f)&3)
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{
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schk1: if (f[0]=='%') goto scandd;
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schk2: if (f[0]==0) goto endfmt;
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stbsp__chk_cb_buf(1); *bf++=f[0]; ++f;
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}
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for(;;)
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{
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// Check if the next 4 bytes contain %(0x25) or end of string.
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// Using the 'hasless' trick:
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// https://graphics.stanford.edu/~seander/bithacks.html#HasLessInWord
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stbsp__uint32 v,c;
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v=*(stbsp__uint32*)f; c=(~v)&0x80808080;
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if (((v^0x25252525)-0x01010101)&c) goto schk1;
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if ((v-0x01010101)&c) goto schk2;
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if (callback) if ((STB_SPRINTF_MIN-(int)(bf-buf))<4) goto schk1;
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*(stbsp__uint32*)bf=v; bf+=4; f+=4;
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}
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} scandd:
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++f;
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// ok, we have a percent, read the modifiers first
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fw = 0; pr = -1; fl = 0; tz = 0;
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// flags
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for(;;)
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{
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switch(f[0])
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{
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// if we have left justify
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case '-': fl|=STBSP__LEFTJUST; ++f; continue;
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// if we have leading plus
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case '+': fl|=STBSP__LEADINGPLUS; ++f; continue;
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// if we have leading space
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case ' ': fl|=STBSP__LEADINGSPACE; ++f; continue;
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// if we have leading 0x
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case '#': fl|=STBSP__LEADING_0X; ++f; continue;
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// if we have thousand commas
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case '\'': fl|=STBSP__TRIPLET_COMMA; ++f; continue;
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// if we have kilo marker
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case '$': fl|=STBSP__METRIC_SUFFIX; ++f; continue;
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// if we have leading zero
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case '0': fl|=STBSP__LEADINGZERO; ++f; goto flags_done;
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default: goto flags_done;
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}
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}
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flags_done:
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// get the field width
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if ( f[0] == '*' ) {fw = va_arg(va,stbsp__uint32); ++f;} else { while (( f[0] >= '0' ) && ( f[0] <= '9' )) { fw = fw * 10 + f[0] - '0'; f++; } }
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// get the precision
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if ( f[0]=='.' ) { ++f; if ( f[0] == '*' ) {pr = va_arg(va,stbsp__uint32); ++f;} else { pr = 0; while (( f[0] >= '0' ) && ( f[0] <= '9' )) { pr = pr * 10 + f[0] - '0'; f++; } } }
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// handle integer size overrides
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switch(f[0])
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{
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// are we halfwidth?
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case 'h': fl|=STBSP__HALFWIDTH; ++f; break;
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// are we 64-bit (unix style)
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case 'l': ++f; if ( f[0]=='l') { fl|=STBSP__INTMAX; ++f; } break;
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// are we 64-bit on intmax? (c99)
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case 'j': fl|=STBSP__INTMAX; ++f; break;
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// are we 64-bit on size_t or ptrdiff_t? (c99)
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case 'z': case 't': fl|=((sizeof(char*)==8)?STBSP__INTMAX:0); ++f; break;
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// are we 64-bit (msft style)
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case 'I': if ( ( f[1]=='6') && ( f[2]=='4') ) { fl|=STBSP__INTMAX; f+=3; }
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else if ( ( f[1]=='3') && ( f[2]=='2') ) { f+=3; }
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else { fl|=((sizeof(void*)==8)?STBSP__INTMAX:0); ++f; } break;
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default: break;
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}
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// handle each replacement
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switch( f[0] )
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{
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#define STBSP__NUMSZ 512 // big enough for e308 (with commas) or e-307
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char num[STBSP__NUMSZ];
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char lead[8];
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char tail[8];
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char *s;
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char const *h;
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stbsp__uint32 l,n,cs;
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stbsp__uint64 n64;
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#ifndef STB_SPRINTF_NOFLOAT
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double fv;
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#endif
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stbsp__int32 dp; char const * sn;
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case 's':
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// get the string
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s = va_arg(va,char*); if (s==0) s = (char*)"null";
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// get the length
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sn = s;
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for(;;)
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{
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if ((((stbsp__uintptr)sn)&3)==0) break;
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lchk:
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if (sn[0]==0) goto ld;
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++sn;
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}
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n = 0xffffffff;
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if (pr>=0) { n=(stbsp__uint32)(sn-s); if (n>=(stbsp__uint32)pr) goto ld; n=((stbsp__uint32)(pr-n))>>2; }
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while(n)
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{
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stbsp__uint32 v=*(stbsp__uint32*)sn;
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if ((v-0x01010101)&(~v)&0x80808080UL) goto lchk;
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sn+=4;
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--n;
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}
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goto lchk;
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ld:
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l = (stbsp__uint32) ( sn - s );
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// clamp to precision
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if ( l > (stbsp__uint32)pr ) l = pr;
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lead[0]=0; tail[0]=0; pr = 0; dp = 0; cs = 0;
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// copy the string in
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goto scopy;
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case 'c': // char
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// get the character
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s = num + STBSP__NUMSZ -1; *s = (char)va_arg(va,int);
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l = 1;
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lead[0]=0; tail[0]=0; pr = 0; dp = 0; cs = 0;
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goto scopy;
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case 'n': // weird write-bytes specifier
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{ int * d = va_arg(va,int*);
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*d = tlen + (int)( bf - buf ); }
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break;
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#ifdef STB_SPRINTF_NOFLOAT
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case 'A': // float
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case 'a': // hex float
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case 'G': // float
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case 'g': // float
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case 'E': // float
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case 'e': // float
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case 'f': // float
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va_arg(va,double); // eat it
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s = (char*)"No float";
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l = 8;
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lead[0]=0; tail[0]=0; pr = 0; dp = 0; cs = 0;
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goto scopy;
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#else
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case 'A': // float
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h=hexu;
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goto hexfloat;
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case 'a': // hex float
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h=hex;
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hexfloat:
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fv = va_arg(va,double);
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if (pr==-1) pr=6; // default is 6
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// read the double into a string
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if ( stbsp__real_to_parts( (stbsp__int64*)&n64, &dp, fv ) )
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fl |= STBSP__NEGATIVE;
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s = num+64;
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// sign
|
|
lead[0]=0; if (fl&STBSP__NEGATIVE) { lead[0]=1; lead[1]='-'; } else if (fl&STBSP__LEADINGSPACE) { lead[0]=1; lead[1]=' '; } else if (fl&STBSP__LEADINGPLUS) { lead[0]=1; lead[1]='+'; };
|
|
|
|
if (dp==-1023) dp=(n64)?-1022:0; else n64|=(((stbsp__uint64)1)<<52);
|
|
n64<<=(64-56);
|
|
if (pr<15) n64+=((((stbsp__uint64)8)<<56)>>(pr*4));
|
|
// add leading chars
|
|
|
|
#ifdef STB_SPRINTF_MSVC_MODE
|
|
*s++='0';*s++='x';
|
|
#else
|
|
lead[1+lead[0]]='0'; lead[2+lead[0]]='x'; lead[0]+=2;
|
|
#endif
|
|
*s++=h[(n64>>60)&15]; n64<<=4;
|
|
if ( pr ) *s++=stbsp__period;
|
|
sn = s;
|
|
|
|
// print the bits
|
|
n = pr; if (n>13) n = 13; if (pr>(stbsp__int32)n) tz=pr-n; pr = 0;
|
|
while(n--) { *s++=h[(n64>>60)&15]; n64<<=4; }
|
|
|
|
// print the expo
|
|
tail[1]=h[17];
|
|
if (dp<0) { tail[2]='-'; dp=-dp;} else tail[2]='+';
|
|
n = (dp>=1000)?6:((dp>=100)?5:((dp>=10)?4:3));
|
|
tail[0]=(char)n;
|
|
for(;;) { tail[n]='0'+dp%10; if (n<=3) break; --n; dp/=10; }
|
|
|
|
dp = (int)(s-sn);
|
|
l = (int)(s-(num+64));
|
|
s = num+64;
|
|
cs = 1 + (3<<24);
|
|
goto scopy;
|
|
|
|
case 'G': // float
|
|
h=hexu;
|
|
goto dosmallfloat;
|
|
|
|
case 'g': // float
|
|
h=hex;
|
|
dosmallfloat:
|
|
fv = va_arg(va,double);
|
|
if (pr==-1) pr=6; else if (pr==0) pr = 1; // default is 6
|
|
// read the double into a string
|
|
if ( stbsp__real_to_str( &sn, &l, num, &dp, fv, (pr-1)|0x80000000 ) )
|
|
fl |= STBSP__NEGATIVE;
|
|
|
|
// clamp the precision and delete extra zeros after clamp
|
|
n = pr;
|
|
if ( l > (stbsp__uint32)pr ) l = pr; while ((l>1)&&(pr)&&(sn[l-1]=='0')) { --pr; --l; }
|
|
|
|
// should we use %e
|
|
if ((dp<=-4)||(dp>(stbsp__int32)n))
|
|
{
|
|
if ( pr > (stbsp__int32)l ) pr = l-1; else if ( pr ) --pr; // when using %e, there is one digit before the decimal
|
|
goto doexpfromg;
|
|
}
|
|
// this is the insane action to get the pr to match %g sematics for %f
|
|
if(dp>0) { pr=(dp<(stbsp__int32)l)?l-dp:0; } else { pr = -dp+((pr>(stbsp__int32)l)?l:pr); }
|
|
goto dofloatfromg;
|
|
|
|
case 'E': // float
|
|
h=hexu;
|
|
goto doexp;
|
|
|
|
case 'e': // float
|
|
h=hex;
|
|
doexp:
|
|
fv = va_arg(va,double);
|
|
if (pr==-1) pr=6; // default is 6
|
|
// read the double into a string
|
|
if ( stbsp__real_to_str( &sn, &l, num, &dp, fv, pr|0x80000000 ) )
|
|
fl |= STBSP__NEGATIVE;
|
|
doexpfromg:
|
|
tail[0]=0;
|
|
lead[0]=0; if (fl&STBSP__NEGATIVE) { lead[0]=1; lead[1]='-'; } else if (fl&STBSP__LEADINGSPACE) { lead[0]=1; lead[1]=' '; } else if (fl&STBSP__LEADINGPLUS) { lead[0]=1; lead[1]='+'; };
|
|
if ( dp == STBSP__SPECIAL ) { s=(char*)sn; cs=0; pr=0; goto scopy; }
|
|
s=num+64;
|
|
// handle leading chars
|
|
*s++=sn[0];
|
|
|
|
if (pr) *s++=stbsp__period;
|
|
|
|
// handle after decimal
|
|
if ((l-1)>(stbsp__uint32)pr) l=pr+1;
|
|
for(n=1;n<l;n++) *s++=sn[n];
|
|
// trailing zeros
|
|
tz = pr-(l-1); pr=0;
|
|
// dump expo
|
|
tail[1]=h[0xe];
|
|
dp -= 1;
|
|
if (dp<0) { tail[2]='-'; dp=-dp;} else tail[2]='+';
|
|
#ifdef STB_SPRINTF_MSVC_MODE
|
|
n = 5;
|
|
#else
|
|
n = (dp>=100)?5:4;
|
|
#endif
|
|
tail[0]=(char)n;
|
|
for(;;) { tail[n]='0'+dp%10; if (n<=3) break; --n; dp/=10; }
|
|
cs = 1 + (3<<24); // how many tens
|
|
goto flt_lead;
|
|
|
|
case 'f': // float
|
|
fv = va_arg(va,double);
|
|
doafloat:
|
|
// do kilos
|
|
if (fl&STBSP__METRIC_SUFFIX) {while(fl<0x4000000) { if ((fv<1024.0) && (fv>-1024.0)) break; fv/=1024.0; fl+=0x1000000; }}
|
|
if (pr==-1) pr=6; // default is 6
|
|
// read the double into a string
|
|
if ( stbsp__real_to_str( &sn, &l, num, &dp, fv, pr ) )
|
|
fl |= STBSP__NEGATIVE;
|
|
dofloatfromg:
|
|
tail[0]=0;
|
|
// sign
|
|
lead[0]=0; if (fl&STBSP__NEGATIVE) { lead[0]=1; lead[1]='-'; } else if (fl&STBSP__LEADINGSPACE) { lead[0]=1; lead[1]=' '; } else if (fl&STBSP__LEADINGPLUS) { lead[0]=1; lead[1]='+'; };
|
|
if ( dp == STBSP__SPECIAL ) { s=(char*)sn; cs=0; pr=0; goto scopy; }
|
|
s=num+64;
|
|
|
|
// handle the three decimal varieties
|
|
if (dp<=0)
|
|
{
|
|
stbsp__int32 i;
|
|
// handle 0.000*000xxxx
|
|
*s++='0'; if (pr) *s++=stbsp__period;
|
|
n=-dp; if((stbsp__int32)n>pr) n=pr; i=n; while(i) { if ((((stbsp__uintptr)s)&3)==0) break; *s++='0'; --i; } while(i>=4) { *(stbsp__uint32*)s=0x30303030; s+=4; i-=4; } while(i) { *s++='0'; --i; }
|
|
if ((stbsp__int32)(l+n)>pr) l=pr-n; i=l; while(i) { *s++=*sn++; --i; }
|
|
tz = pr-(n+l);
|
|
cs = 1 + (3<<24); // how many tens did we write (for commas below)
|
|
}
|
|
else
|
|
{
|
|
cs = (fl&STBSP__TRIPLET_COMMA)?((600-(stbsp__uint32)dp)%3):0;
|
|
if ((stbsp__uint32)dp>=l)
|
|
{
|
|
// handle xxxx000*000.0
|
|
n=0; for(;;) { if ((fl&STBSP__TRIPLET_COMMA) && (++cs==4)) { cs = 0; *s++=stbsp__comma; } else { *s++=sn[n]; ++n; if (n>=l) break; } }
|
|
if (n<(stbsp__uint32)dp)
|
|
{
|
|
n = dp - n;
|
|
if ((fl&STBSP__TRIPLET_COMMA)==0) { while(n) { if ((((stbsp__uintptr)s)&3)==0) break; *s++='0'; --n; } while(n>=4) { *(stbsp__uint32*)s=0x30303030; s+=4; n-=4; } }
|
|
while(n) { if ((fl&STBSP__TRIPLET_COMMA) && (++cs==4)) { cs = 0; *s++=stbsp__comma; } else { *s++='0'; --n; } }
|
|
}
|
|
cs = (int)(s-(num+64)) + (3<<24); // cs is how many tens
|
|
if (pr) { *s++=stbsp__period; tz=pr;}
|
|
}
|
|
else
|
|
{
|
|
// handle xxxxx.xxxx000*000
|
|
n=0; for(;;) { if ((fl&STBSP__TRIPLET_COMMA) && (++cs==4)) { cs = 0; *s++=stbsp__comma; } else { *s++=sn[n]; ++n; if (n>=(stbsp__uint32)dp) break; } }
|
|
cs = (int)(s-(num+64)) + (3<<24); // cs is how many tens
|
|
if (pr) *s++=stbsp__period;
|
|
if ((l-dp)>(stbsp__uint32)pr) l=pr+dp;
|
|
while(n<l) { *s++=sn[n]; ++n; }
|
|
tz = pr-(l-dp);
|
|
}
|
|
}
|
|
pr = 0;
|
|
|
|
// handle k,m,g,t
|
|
if (fl&STBSP__METRIC_SUFFIX) { tail[0]=1; tail[1]=' '; { if (fl>>24) { tail[2]="_kmgt"[fl>>24]; tail[0]=2; } } };
|
|
|
|
flt_lead:
|
|
// get the length that we copied
|
|
l = (stbsp__uint32) ( s-(num+64) );
|
|
s=num+64;
|
|
goto scopy;
|
|
#endif
|
|
|
|
case 'B': // upper binary
|
|
h = hexu;
|
|
goto binary;
|
|
|
|
case 'b': // lower binary
|
|
h = hex;
|
|
binary:
|
|
lead[0]=0;
|
|
if (fl&STBSP__LEADING_0X) { lead[0]=2;lead[1]='0';lead[2]=h[0xb]; }
|
|
l=(8<<4)|(1<<8);
|
|
goto radixnum;
|
|
|
|
case 'o': // octal
|
|
h = hexu;
|
|
lead[0]=0;
|
|
if (fl&STBSP__LEADING_0X) { lead[0]=1;lead[1]='0'; }
|
|
l=(3<<4)|(3<<8);
|
|
goto radixnum;
|
|
|
|
case 'p': // pointer
|
|
fl |= (sizeof(void*)==8)?STBSP__INTMAX:0;
|
|
pr = sizeof(void*)*2;
|
|
fl &= ~STBSP__LEADINGZERO; // 'p' only prints the pointer with zeros
|
|
// drop through to X
|
|
|
|
case 'X': // upper binary
|
|
h = hexu;
|
|
goto dohexb;
|
|
|
|
case 'x': // lower binary
|
|
h = hex; dohexb:
|
|
l=(4<<4)|(4<<8);
|
|
lead[0]=0;
|
|
if (fl&STBSP__LEADING_0X) { lead[0]=2;lead[1]='0';lead[2]=h[16]; }
|
|
radixnum:
|
|
// get the number
|
|
if ( fl&STBSP__INTMAX )
|
|
n64 = va_arg(va,stbsp__uint64);
|
|
else
|
|
n64 = va_arg(va,stbsp__uint32);
|
|
|
|
s = num + STBSP__NUMSZ; dp = 0;
|
|
// clear tail, and clear leading if value is zero
|
|
tail[0]=0; if (n64==0) { lead[0]=0; if (pr==0) { l=0; cs = ( ((l>>4)&15)) << 24; goto scopy; } }
|
|
// convert to string
|
|
for(;;) { *--s = h[n64&((1<<(l>>8))-1)]; n64>>=(l>>8); if ( ! ( (n64) || ((stbsp__int32) ( (num+STBSP__NUMSZ) - s ) < pr ) ) ) break; if ( fl&STBSP__TRIPLET_COMMA) { ++l; if ((l&15)==((l>>4)&15)) { l&=~15; *--s=stbsp__comma; } } };
|
|
// get the tens and the comma pos
|
|
cs = (stbsp__uint32) ( (num+STBSP__NUMSZ) - s ) + ( ( ((l>>4)&15)) << 24 );
|
|
// get the length that we copied
|
|
l = (stbsp__uint32) ( (num+STBSP__NUMSZ) - s );
|
|
// copy it
|
|
goto scopy;
|
|
|
|
case 'u': // unsigned
|
|
case 'i':
|
|
case 'd': // integer
|
|
// get the integer and abs it
|
|
if ( fl&STBSP__INTMAX )
|
|
{
|
|
stbsp__int64 i64 = va_arg(va,stbsp__int64); n64 = (stbsp__uint64)i64; if ((f[0]!='u') && (i64<0)) { n64=(stbsp__uint64)-i64; fl|=STBSP__NEGATIVE; }
|
|
}
|
|
else
|
|
{
|
|
stbsp__int32 i = va_arg(va,stbsp__int32); n64 = (stbsp__uint32)i; if ((f[0]!='u') && (i<0)) { n64=(stbsp__uint32)-i; fl|=STBSP__NEGATIVE; }
|
|
}
|
|
|
|
#ifndef STB_SPRINTF_NOFLOAT
|
|
if (fl&STBSP__METRIC_SUFFIX) { if (n64<1024) pr=0; else if (pr==-1) pr=1; fv=(double)(stbsp__int64)n64; goto doafloat; }
|
|
#endif
|
|
|
|
// convert to string
|
|
s = num+STBSP__NUMSZ; l=0;
|
|
|
|
for(;;)
|
|
{
|
|
// do in 32-bit chunks (avoid lots of 64-bit divides even with constant denominators)
|
|
char * o=s-8;
|
|
if (n64>=100000000) { n = (stbsp__uint32)( n64 % 100000000); n64 /= 100000000; } else {n = (stbsp__uint32)n64; n64 = 0; }
|
|
if((fl&STBSP__TRIPLET_COMMA)==0) { while(n) { s-=2; *(stbsp__uint16*)s=*(stbsp__uint16*)&stbsp__digitpair[(n%100)*2]; n/=100; } }
|
|
while (n) { if ( ( fl&STBSP__TRIPLET_COMMA) && (l++==3) ) { l=0; *--s=stbsp__comma; --o; } else { *--s=(char)(n%10)+'0'; n/=10; } }
|
|
if (n64==0) { if ((s[0]=='0') && (s!=(num+STBSP__NUMSZ))) ++s; break; }
|
|
while (s!=o) if ( ( fl&STBSP__TRIPLET_COMMA) && (l++==3) ) { l=0; *--s=stbsp__comma; --o; } else { *--s='0'; }
|
|
}
|
|
|
|
tail[0]=0;
|
|
// sign
|
|
lead[0]=0; if (fl&STBSP__NEGATIVE) { lead[0]=1; lead[1]='-'; } else if (fl&STBSP__LEADINGSPACE) { lead[0]=1; lead[1]=' '; } else if (fl&STBSP__LEADINGPLUS) { lead[0]=1; lead[1]='+'; };
|
|
|
|
// get the length that we copied
|
|
l = (stbsp__uint32) ( (num+STBSP__NUMSZ) - s ); if ( l == 0 ) { *--s='0'; l = 1; }
|
|
cs = l + (3<<24);
|
|
if (pr<0) pr = 0;
|
|
|
|
scopy:
|
|
// get fw=leading/trailing space, pr=leading zeros
|
|
if (pr<(stbsp__int32)l) pr = l;
|
|
n = pr + lead[0] + tail[0] + tz;
|
|
if (fw<(stbsp__int32)n) fw = n;
|
|
fw -= n;
|
|
pr -= l;
|
|
|
|
// handle right justify and leading zeros
|
|
if ( (fl&STBSP__LEFTJUST)==0 )
|
|
{
|
|
if (fl&STBSP__LEADINGZERO) // if leading zeros, everything is in pr
|
|
{
|
|
pr = (fw>pr)?fw:pr;
|
|
fw = 0;
|
|
}
|
|
else
|
|
{
|
|
fl &= ~STBSP__TRIPLET_COMMA; // if no leading zeros, then no commas
|
|
}
|
|
}
|
|
|
|
// copy the spaces and/or zeros
|
|
if (fw+pr)
|
|
{
|
|
stbsp__int32 i; stbsp__uint32 c;
|
|
|
|
// copy leading spaces (or when doing %8.4d stuff)
|
|
if ( (fl&STBSP__LEFTJUST)==0 ) while(fw>0) { stbsp__cb_buf_clamp(i,fw); fw -= i; while(i) { if ((((stbsp__uintptr)bf)&3)==0) break; *bf++=' '; --i; } while(i>=4) { *(stbsp__uint32*)bf=0x20202020; bf+=4; i-=4; } while (i) {*bf++=' '; --i;} stbsp__chk_cb_buf(1); }
|
|
|
|
// copy leader
|
|
sn=lead+1; while(lead[0]) { stbsp__cb_buf_clamp(i,lead[0]); lead[0] -= (char)i; while (i) {*bf++=*sn++; --i;} stbsp__chk_cb_buf(1); }
|
|
|
|
// copy leading zeros
|
|
c = cs >> 24; cs &= 0xffffff;
|
|
cs = (fl&STBSP__TRIPLET_COMMA)?((stbsp__uint32)(c-((pr+cs)%(c+1)))):0;
|
|
while(pr>0) { stbsp__cb_buf_clamp(i,pr); pr -= i; if((fl&STBSP__TRIPLET_COMMA)==0) { while(i) { if ((((stbsp__uintptr)bf)&3)==0) break; *bf++='0'; --i; } while(i>=4) { *(stbsp__uint32*)bf=0x30303030; bf+=4; i-=4; } } while (i) { if((fl&STBSP__TRIPLET_COMMA) && (cs++==c)) { cs = 0; *bf++=stbsp__comma; } else *bf++='0'; --i; } stbsp__chk_cb_buf(1); }
|
|
}
|
|
|
|
// copy leader if there is still one
|
|
sn=lead+1; while(lead[0]) { stbsp__int32 i; stbsp__cb_buf_clamp(i,lead[0]); lead[0] -= (char)i; while (i) {*bf++=*sn++; --i;} stbsp__chk_cb_buf(1); }
|
|
|
|
// copy the string
|
|
n = l; while (n) { stbsp__int32 i; stbsp__cb_buf_clamp(i,n); n-=i; STBSP__UNALIGNED( while(i>=4) { *(stbsp__uint32*)bf=*(stbsp__uint32*)s; bf+=4; s+=4; i-=4; } ) while (i) {*bf++=*s++; --i;} stbsp__chk_cb_buf(1); }
|
|
|
|
// copy trailing zeros
|
|
while(tz) { stbsp__int32 i; stbsp__cb_buf_clamp(i,tz); tz -= i; while(i) { if ((((stbsp__uintptr)bf)&3)==0) break; *bf++='0'; --i; } while(i>=4) { *(stbsp__uint32*)bf=0x30303030; bf+=4; i-=4; } while (i) {*bf++='0'; --i;} stbsp__chk_cb_buf(1); }
|
|
|
|
// copy tail if there is one
|
|
sn=tail+1; while(tail[0]) { stbsp__int32 i; stbsp__cb_buf_clamp(i,tail[0]); tail[0] -= (char)i; while (i) {*bf++=*sn++; --i;} stbsp__chk_cb_buf(1); }
|
|
|
|
// handle the left justify
|
|
if (fl&STBSP__LEFTJUST) if (fw>0) { while (fw) { stbsp__int32 i; stbsp__cb_buf_clamp(i,fw); fw-=i; while(i) { if ((((stbsp__uintptr)bf)&3)==0) break; *bf++=' '; --i; } while(i>=4) { *(stbsp__uint32*)bf=0x20202020; bf+=4; i-=4; } while (i--) *bf++=' '; stbsp__chk_cb_buf(1); } }
|
|
break;
|
|
|
|
default: // unknown, just copy code
|
|
s = num + STBSP__NUMSZ -1; *s = f[0];
|
|
l = 1;
|
|
fw=pr=fl=0;
|
|
lead[0]=0; tail[0]=0; pr = 0; dp = 0; cs = 0;
|
|
goto scopy;
|
|
}
|
|
++f;
|
|
}
|
|
endfmt:
|
|
|
|
if (!callback)
|
|
*bf = 0;
|
|
else
|
|
stbsp__flush_cb();
|
|
|
|
done:
|
|
return tlen + (int)(bf-buf);
|
|
}
|
|
|
|
// cleanup
|
|
#undef STBSP__LEFTJUST
|
|
#undef STBSP__LEADINGPLUS
|
|
#undef STBSP__LEADINGSPACE
|
|
#undef STBSP__LEADING_0X
|
|
#undef STBSP__LEADINGZERO
|
|
#undef STBSP__INTMAX
|
|
#undef STBSP__TRIPLET_COMMA
|
|
#undef STBSP__NEGATIVE
|
|
#undef STBSP__METRIC_SUFFIX
|
|
#undef STBSP__NUMSZ
|
|
#undef stbsp__chk_cb_bufL
|
|
#undef stbsp__chk_cb_buf
|
|
#undef stbsp__flush_cb
|
|
#undef stbsp__cb_buf_clamp
|
|
|
|
// ============================================================================
|
|
// wrapper functions
|
|
|
|
STBSP__PUBLICDEF int STB_SPRINTF_DECORATE( sprintf )( char * buf, char const * fmt, ... )
|
|
{
|
|
va_list va;
|
|
va_start( va, fmt );
|
|
return STB_SPRINTF_DECORATE( vsprintfcb )( 0, 0, buf, fmt, va );
|
|
}
|
|
|
|
typedef struct stbsp__context
|
|
{
|
|
char * buf;
|
|
int count;
|
|
char tmp[ STB_SPRINTF_MIN ];
|
|
} stbsp__context;
|
|
|
|
static char * stbsp__clamp_callback( char * buf, void * user, int len )
|
|
{
|
|
stbsp__context * c = (stbsp__context*)user;
|
|
|
|
if ( len > c->count ) len = c->count;
|
|
|
|
if (len)
|
|
{
|
|
if ( buf != c->buf )
|
|
{
|
|
char * s, * d, * se;
|
|
d = c->buf; s = buf; se = buf+len;
|
|
do{ *d++ = *s++; } while (s<se);
|
|
}
|
|
c->buf += len;
|
|
c->count -= len;
|
|
}
|
|
|
|
if ( c->count <= 0 ) return 0;
|
|
return ( c->count >= STB_SPRINTF_MIN ) ? c->buf : c->tmp; // go direct into buffer if you can
|
|
}
|
|
|
|
STBSP__PUBLICDEF int STB_SPRINTF_DECORATE( vsnprintf )( char * buf, int count, char const * fmt, va_list va )
|
|
{
|
|
stbsp__context c;
|
|
int l;
|
|
|
|
if ( count == 0 )
|
|
return 0;
|
|
|
|
c.buf = buf;
|
|
c.count = count;
|
|
|
|
STB_SPRINTF_DECORATE( vsprintfcb )( stbsp__clamp_callback, &c, stbsp__clamp_callback(0,&c,0), fmt, va );
|
|
|
|
// zero-terminate
|
|
l = (int)( c.buf - buf );
|
|
if ( l >= count ) // should never be greater, only equal (or less) than count
|
|
l = count - 1;
|
|
buf[l] = 0;
|
|
|
|
return l;
|
|
}
|
|
|
|
STBSP__PUBLICDEF int STB_SPRINTF_DECORATE( snprintf )( char * buf, int count, char const * fmt, ... )
|
|
{
|
|
va_list va;
|
|
va_start( va, fmt );
|
|
|
|
return STB_SPRINTF_DECORATE( vsnprintf )( buf, count, fmt, va );
|
|
}
|
|
|
|
STBSP__PUBLICDEF int STB_SPRINTF_DECORATE( vsprintf )( char * buf, char const * fmt, va_list va )
|
|
{
|
|
return STB_SPRINTF_DECORATE( vsprintfcb )( 0, 0, buf, fmt, va );
|
|
}
|
|
|
|
// =======================================================================
|
|
// low level float utility functions
|
|
|
|
#ifndef STB_SPRINTF_NOFLOAT
|
|
|
|
// copies d to bits w/ strict aliasing (this compiles to nothing on /Ox)
|
|
#define STBSP__COPYFP(dest,src) { int cn; for(cn=0;cn<8;cn++) ((char*)&dest)[cn]=((char*)&src)[cn]; }
|
|
|
|
// get float info
|
|
static stbsp__int32 stbsp__real_to_parts( stbsp__int64 * bits, stbsp__int32 * expo, double value )
|
|
{
|
|
double d;
|
|
stbsp__int64 b = 0;
|
|
|
|
// load value and round at the frac_digits
|
|
d = value;
|
|
|
|
STBSP__COPYFP( b, d );
|
|
|
|
*bits = b & ((((stbsp__uint64)1)<<52)-1);
|
|
*expo = (stbsp__int32) (((b >> 52) & 2047)-1023);
|
|
|
|
return (stbsp__int32)(b >> 63);
|
|
}
|
|
|
|
static double const stbsp__bot[23]={1e+000,1e+001,1e+002,1e+003,1e+004,1e+005,1e+006,1e+007,1e+008,1e+009,1e+010,1e+011,1e+012,1e+013,1e+014,1e+015,1e+016,1e+017,1e+018,1e+019,1e+020,1e+021,1e+022};
|
|
static double const stbsp__negbot[22]={1e-001,1e-002,1e-003,1e-004,1e-005,1e-006,1e-007,1e-008,1e-009,1e-010,1e-011,1e-012,1e-013,1e-014,1e-015,1e-016,1e-017,1e-018,1e-019,1e-020,1e-021,1e-022};
|
|
static double const stbsp__negboterr[22]={-5.551115123125783e-018,-2.0816681711721684e-019,-2.0816681711721686e-020,-4.7921736023859299e-021,-8.1803053914031305e-022,4.5251888174113741e-023,4.5251888174113739e-024,-2.0922560830128471e-025,-6.2281591457779853e-026,-3.6432197315497743e-027,6.0503030718060191e-028,2.0113352370744385e-029,-3.0373745563400371e-030,1.1806906454401013e-032,-7.7705399876661076e-032,2.0902213275965398e-033,-7.1542424054621921e-034,-7.1542424054621926e-035,2.4754073164739869e-036,5.4846728545790429e-037,9.2462547772103625e-038,-4.8596774326570872e-039};
|
|
static double const stbsp__top[13]={1e+023,1e+046,1e+069,1e+092,1e+115,1e+138,1e+161,1e+184,1e+207,1e+230,1e+253,1e+276,1e+299};
|
|
static double const stbsp__negtop[13]={1e-023,1e-046,1e-069,1e-092,1e-115,1e-138,1e-161,1e-184,1e-207,1e-230,1e-253,1e-276,1e-299};
|
|
static double const stbsp__toperr[13]={8388608,6.8601809640529717e+028,-7.253143638152921e+052,-4.3377296974619174e+075,-1.5559416129466825e+098,-3.2841562489204913e+121,-3.7745893248228135e+144,-1.7356668416969134e+167,-3.8893577551088374e+190,-9.9566444326005119e+213,6.3641293062232429e+236,-5.2069140800249813e+259,-5.2504760255204387e+282};
|
|
static double const stbsp__negtoperr[13]={3.9565301985100693e-040,-2.299904345391321e-063,3.6506201437945798e-086,1.1875228833981544e-109,-5.0644902316928607e-132,-6.7156837247865426e-155,-2.812077463003139e-178,-5.7778912386589953e-201,7.4997100559334532e-224,-4.6439668915134491e-247,-6.3691100762962136e-270,-9.436808465446358e-293,8.0970921678014997e-317};
|
|
|
|
#if defined(_MSC_VER) && (_MSC_VER<=1200)
|
|
static stbsp__uint64 const stbsp__powten[20]={1,10,100,1000, 10000,100000,1000000,10000000, 100000000,1000000000,10000000000,100000000000, 1000000000000,10000000000000,100000000000000,1000000000000000, 10000000000000000,100000000000000000,1000000000000000000,10000000000000000000U };
|
|
#define stbsp__tento19th ((stbsp__uint64)1000000000000000000)
|
|
#else
|
|
static stbsp__uint64 const stbsp__powten[20]={1,10,100,1000, 10000,100000,1000000,10000000, 100000000,1000000000,10000000000ULL,100000000000ULL, 1000000000000ULL,10000000000000ULL,100000000000000ULL,1000000000000000ULL, 10000000000000000ULL,100000000000000000ULL,1000000000000000000ULL,10000000000000000000ULL };
|
|
#define stbsp__tento19th (1000000000000000000ULL)
|
|
#endif
|
|
|
|
#define stbsp__ddmulthi(oh,ol,xh,yh) \
|
|
{ \
|
|
double ahi=0,alo,bhi=0,blo; \
|
|
stbsp__int64 bt; \
|
|
oh = xh * yh; \
|
|
STBSP__COPYFP(bt,xh); bt&=((~(stbsp__uint64)0)<<27); STBSP__COPYFP(ahi,bt); alo = xh-ahi; \
|
|
STBSP__COPYFP(bt,yh); bt&=((~(stbsp__uint64)0)<<27); STBSP__COPYFP(bhi,bt); blo = yh-bhi; \
|
|
ol = ((ahi*bhi-oh)+ahi*blo+alo*bhi)+alo*blo; \
|
|
}
|
|
|
|
#define stbsp__ddtoS64(ob,xh,xl) \
|
|
{ \
|
|
double ahi=0,alo,vh,t;\
|
|
ob = (stbsp__int64)ph;\
|
|
vh=(double)ob;\
|
|
ahi = ( xh - vh );\
|
|
t = ( ahi - xh );\
|
|
alo = (xh-(ahi-t))-(vh+t);\
|
|
ob += (stbsp__int64)(ahi+alo+xl);\
|
|
}
|
|
|
|
|
|
#define stbsp__ddrenorm(oh,ol) { double s; s=oh+ol; ol=ol-(s-oh); oh=s; }
|
|
|
|
#define stbsp__ddmultlo(oh,ol,xh,xl,yh,yl) \
|
|
ol = ol + ( xh*yl + xl*yh ); \
|
|
|
|
#define stbsp__ddmultlos(oh,ol,xh,yl) \
|
|
ol = ol + ( xh*yl ); \
|
|
|
|
static void stbsp__raise_to_power10( double *ohi, double *olo, double d, stbsp__int32 power ) // power can be -323 to +350
|
|
{
|
|
double ph, pl;
|
|
if ((power>=0) && (power<=22))
|
|
{
|
|
stbsp__ddmulthi(ph,pl,d,stbsp__bot[power]);
|
|
}
|
|
else
|
|
{
|
|
stbsp__int32 e,et,eb;
|
|
double p2h,p2l;
|
|
|
|
e=power; if (power<0) e=-e;
|
|
et = (e*0x2c9)>>14;/* %23 */ if (et>13) et=13; eb = e-(et*23);
|
|
|
|
ph = d; pl = 0.0;
|
|
if (power<0)
|
|
{
|
|
if (eb) { --eb; stbsp__ddmulthi(ph,pl,d,stbsp__negbot[eb]); stbsp__ddmultlos(ph,pl,d,stbsp__negboterr[eb]); }
|
|
if (et)
|
|
{
|
|
stbsp__ddrenorm(ph,pl);
|
|
--et; stbsp__ddmulthi(p2h,p2l,ph,stbsp__negtop[et]); stbsp__ddmultlo(p2h,p2l,ph,pl,stbsp__negtop[et],stbsp__negtoperr[et]); ph=p2h;pl=p2l;
|
|
}
|
|
}
|
|
else
|
|
{
|
|
if (eb)
|
|
{
|
|
e = eb; if (eb>22) eb=22; e -= eb;
|
|
stbsp__ddmulthi(ph,pl,d,stbsp__bot[eb]);
|
|
if ( e ) { stbsp__ddrenorm(ph,pl); stbsp__ddmulthi(p2h,p2l,ph,stbsp__bot[e]); stbsp__ddmultlos(p2h,p2l,stbsp__bot[e],pl); ph=p2h;pl=p2l; }
|
|
}
|
|
if (et)
|
|
{
|
|
stbsp__ddrenorm(ph,pl);
|
|
--et; stbsp__ddmulthi(p2h,p2l,ph,stbsp__top[et]); stbsp__ddmultlo(p2h,p2l,ph,pl,stbsp__top[et],stbsp__toperr[et]); ph=p2h;pl=p2l;
|
|
}
|
|
}
|
|
}
|
|
stbsp__ddrenorm(ph,pl);
|
|
*ohi = ph; *olo = pl;
|
|
}
|
|
|
|
// given a float value, returns the significant bits in bits, and the position of the
|
|
// decimal point in decimal_pos. +/-INF and NAN are specified by special values
|
|
// returned in the decimal_pos parameter.
|
|
// frac_digits is absolute normally, but if you want from first significant digits (got %g and %e), or in 0x80000000
|
|
static stbsp__int32 stbsp__real_to_str( char const * * start, stbsp__uint32 * len, char *out, stbsp__int32 * decimal_pos, double value, stbsp__uint32 frac_digits )
|
|
{
|
|
double d;
|
|
stbsp__int64 bits = 0;
|
|
stbsp__int32 expo, e, ng, tens;
|
|
|
|
d = value;
|
|
STBSP__COPYFP(bits,d);
|
|
expo = (stbsp__int32) ((bits >> 52) & 2047);
|
|
ng = (stbsp__int32)(bits >> 63);
|
|
if (ng) d=-d;
|
|
|
|
if ( expo == 2047 ) // is nan or inf?
|
|
{
|
|
*start = (bits&((((stbsp__uint64)1)<<52)-1)) ? "NaN" : "Inf";
|
|
*decimal_pos = STBSP__SPECIAL;
|
|
*len = 3;
|
|
return ng;
|
|
}
|
|
|
|
if ( expo == 0 ) // is zero or denormal
|
|
{
|
|
if ((bits<<1)==0) // do zero
|
|
{
|
|
*decimal_pos = 1;
|
|
*start = out;
|
|
out[0] = '0'; *len = 1;
|
|
return ng;
|
|
}
|
|
// find the right expo for denormals
|
|
{
|
|
stbsp__int64 v = ((stbsp__uint64)1)<<51;
|
|
while ((bits&v)==0) { --expo; v >>= 1; }
|
|
}
|
|
}
|
|
|
|
// find the decimal exponent as well as the decimal bits of the value
|
|
{
|
|
double ph,pl;
|
|
|
|
// log10 estimate - very specifically tweaked to hit or undershoot by no more than 1 of log10 of all expos 1..2046
|
|
tens=expo-1023; tens = (tens<0)?((tens*617)/2048):(((tens*1233)/4096)+1);
|
|
|
|
// move the significant bits into position and stick them into an int
|
|
stbsp__raise_to_power10( &ph, &pl, d, 18-tens );
|
|
|
|
// get full as much precision from double-double as possible
|
|
stbsp__ddtoS64( bits, ph,pl );
|
|
|
|
// check if we undershot
|
|
if ( ((stbsp__uint64)bits) >= stbsp__tento19th ) ++tens;
|
|
}
|
|
|
|
// now do the rounding in integer land
|
|
frac_digits = ( frac_digits & 0x80000000 ) ? ( (frac_digits&0x7ffffff) + 1 ) : ( tens + frac_digits );
|
|
if ( ( frac_digits < 24 ) )
|
|
{
|
|
stbsp__uint32 dg = 1; if ((stbsp__uint64)bits >= stbsp__powten[9] ) dg=10; while( (stbsp__uint64)bits >= stbsp__powten[dg] ) { ++dg; if (dg==20) goto noround; }
|
|
if ( frac_digits < dg )
|
|
{
|
|
stbsp__uint64 r;
|
|
// add 0.5 at the right position and round
|
|
e = dg - frac_digits;
|
|
if ( (stbsp__uint32)e >= 24 ) goto noround;
|
|
r = stbsp__powten[e];
|
|
bits = bits + (r/2);
|
|
if ( (stbsp__uint64)bits >= stbsp__powten[dg] ) ++tens;
|
|
bits /= r;
|
|
}
|
|
noround:;
|
|
}
|
|
|
|
// kill long trailing runs of zeros
|
|
if ( bits )
|
|
{
|
|
stbsp__uint32 n;
|
|
for(;;) { if ( bits<=0xffffffff ) break; if (bits%1000) goto donez; bits/=1000; }
|
|
n = (stbsp__uint32)bits;
|
|
while ((n%1000)==0) n/=1000;
|
|
bits=n;
|
|
donez:;
|
|
}
|
|
|
|
// convert to string
|
|
out += 64;
|
|
e = 0;
|
|
for(;;)
|
|
{
|
|
stbsp__uint32 n;
|
|
char * o = out-8;
|
|
// do the conversion in chunks of U32s (avoid most 64-bit divides, worth it, constant denomiators be damned)
|
|
if (bits>=100000000) { n = (stbsp__uint32)( bits % 100000000); bits /= 100000000; } else {n = (stbsp__uint32)bits; bits = 0; }
|
|
while(n) { out-=2; *(stbsp__uint16*)out=*(stbsp__uint16*)&stbsp__digitpair[(n%100)*2]; n/=100; e+=2; }
|
|
if (bits==0) { if ((e) && (out[0]=='0')) { ++out; --e; } break; }
|
|
while( out!=o ) { *--out ='0'; ++e; }
|
|
}
|
|
|
|
*decimal_pos = tens;
|
|
*start = out;
|
|
*len = e;
|
|
return ng;
|
|
}
|
|
|
|
#undef stbsp__ddmulthi
|
|
#undef stbsp__ddrenorm
|
|
#undef stbsp__ddmultlo
|
|
#undef stbsp__ddmultlos
|
|
#undef STBSP__SPECIAL
|
|
#undef STBSP__COPYFP
|
|
|
|
#endif // STB_SPRINTF_NOFLOAT
|
|
|
|
// clean up
|
|
#undef stbsp__uint16
|
|
#undef stbsp__uint32
|
|
#undef stbsp__int32
|
|
#undef stbsp__uint64
|
|
#undef stbsp__int64
|
|
#undef STBSP__UNALIGNED
|
|
|
|
#endif // STB_SPRINTF_IMPLEMENTATION
|