#ifndef MUPDF_FITZ_SYSTEM_H #define MUPDF_FITZ_SYSTEM_H /* Turn on valgrind pacification in debug builds. */ #ifndef NDEBUG #ifndef PACIFY_VALGRIND #define PACIFY_VALGRIND #endif #endif /* Include the standard libc headers. */ #include /* needed for size_t */ #include /* needed for va_list vararg functions */ #include /* needed for the try/catch macros */ #include /* useful for debug printfs */ #if defined(_MSC_VER) && (_MSC_VER < 1700) /* MSVC older than VS2012 */ typedef signed char int8_t; typedef short int int16_t; typedef int int32_t; typedef __int64 int64_t; typedef unsigned char uint8_t; typedef unsigned short int uint16_t; typedef unsigned int uint32_t; typedef unsigned __int64 uint64_t; #ifndef INT64_MAX #define INT64_MAX 9223372036854775807i64 #endif #else #include /* needed for int64_t */ #endif #include "mupdf/memento.h" #include "mupdf/fitz/track-usage.h" #define nelem(x) (sizeof(x)/sizeof((x)[0])) #define FZ_PI 3.14159265f #define FZ_RADIAN 57.2957795f #define FZ_DEGREE 0.017453292f #define FZ_SQRT2 1.41421356f #define FZ_LN2 0.69314718f /* Spot architectures where we have optimisations. */ #if defined(__arm__) || defined(__thumb__) #ifndef ARCH_ARM #define ARCH_ARM #endif #endif /* Some differences in libc can be smoothed over */ #ifndef __STRICT_ANSI__ #if defined(__APPLE__) #ifndef HAVE_SIGSETJMP #define HAVE_SIGSETJMP 1 #endif #elif defined(__unix) #ifndef __EMSCRIPTEN__ #ifndef HAVE_SIGSETJMP #define HAVE_SIGSETJMP 1 #endif #endif #endif #endif #ifndef HAVE_SIGSETJMP #define HAVE_SIGSETJMP 0 #endif /* Where possible (i.e. on platforms on which they are provided), use sigsetjmp/siglongjmp in preference to setjmp/longjmp. We don't alter signal handlers within mupdf, so there is no need for us to store/restore them - hence we use the non-restoring variants. This makes a large speed difference on MacOSX (and probably other platforms too. */ #if HAVE_SIGSETJMP #define fz_setjmp(BUF) sigsetjmp(BUF, 0) #define fz_longjmp(BUF,VAL) siglongjmp(BUF, VAL) #define fz_jmp_buf sigjmp_buf #else #define fz_setjmp(BUF) setjmp(BUF) #define fz_longjmp(BUF,VAL) longjmp(BUF,VAL) #define fz_jmp_buf jmp_buf #endif /* these constants mirror the corresponding macros in stdio.h */ #ifndef EOF #define EOF (-1) #endif #ifndef SEEK_SET #define SEEK_SET 0 #endif #ifndef SEEK_CUR #define SEEK_CUR 1 #endif #ifndef SEEK_END #define SEEK_END 2 #endif #ifdef _MSC_VER /* Microsoft Visual C */ /* MSVC up to VS2012 */ #if _MSC_VER < 1800 static __inline int signbit(double x) { union { double d; __int64 i; } u; u.d = x; return (int)(u.i>>63); } #endif #pragma warning( disable: 4244 ) /* conversion from X to Y, possible loss of data */ #pragma warning( disable: 4701 ) /* Potentially uninitialized local variable 'name' used */ #pragma warning( disable: 4996 ) /* 'function': was declared deprecated */ #if _MSC_VER <= 1700 /* MSVC 2012 */ #define isnan(x) _isnan(x) #define isinf(x) (!_finite(x)) #endif #define hypotf _hypotf #define atoll _atoi64 #endif #ifdef _WIN32 char *fz_utf8_from_wchar(const wchar_t *s); wchar_t *fz_wchar_from_utf8(const char *s); /* really a FILE* but we don't want to include stdio.h here */ void *fz_fopen_utf8(const char *name, const char *mode); int fz_remove_utf8(const char *name); char **fz_argv_from_wargv(int argc, wchar_t **wargv); void fz_free_argv(int argc, char **argv); #endif /* Cope with systems (such as Windows) with no S_ISDIR */ #ifndef S_ISDIR #define S_ISDIR(mode) ((mode) & S_IFDIR) #endif /* inline is standard in C++. For some compilers we can enable it within C too. */ #ifndef __cplusplus #if defined (__STDC_VERSION_) && (__STDC_VERSION__ >= 199901L) /* C99 */ #elif defined(_MSC_VER) && (_MSC_VER >= 1500) /* MSVC 9 or newer */ #define inline __inline #elif defined(__GNUC__) && (__GNUC__ >= 3) /* GCC 3 or newer */ #define inline __inline #else /* Unknown or ancient */ #define inline #endif #endif /* restrict is standard in C99, but not in all C++ compilers. */ #if defined (__STDC_VERSION_) && (__STDC_VERSION__ >= 199901L) /* C99 */ #define FZ_RESTRICT restrict #elif defined(_MSC_VER) && (_MSC_VER >= 1600) /* MSVC 10 or newer */ #define FZ_RESTRICT __restrict #elif defined(__GNUC__) && (__GNUC__ >= 3) /* GCC 3 or newer */ #define FZ_RESTRICT __restrict #else /* Unknown or ancient */ #define FZ_RESTRICT #endif /* noreturn is a GCC extension */ #ifdef __GNUC__ #define FZ_NORETURN __attribute__((noreturn)) #else #ifdef _MSC_VER #define FZ_NORETURN __declspec(noreturn) #else #define FZ_NORETURN #endif #endif /* Flag unused parameters, for use with 'static inline' functions in headers. */ #if defined(__GNUC__) && (__GNUC__ > 2 || __GNUC__ == 2 && __GNUC_MINOR__ >= 7) #define FZ_UNUSED __attribute__((__unused__)) #else #define FZ_UNUSED #endif /* GCC can do type checking of printf strings */ #ifdef __printflike #define FZ_PRINTFLIKE(F,V) __printflike(F,V) #else #if defined(__GNUC__) && (__GNUC__ > 2 || __GNUC__ == 2 && __GNUC_MINOR__ >= 7) #define FZ_PRINTFLIKE(F,V) __attribute__((__format__ (__printf__, F, V))) #else #define FZ_PRINTFLIKE(F,V) #endif #endif /* ARM assembly specific defines */ #ifdef ARCH_ARM /* If we're compiling as thumb code, then we need to tell the compiler * to enter and exit ARM mode around our assembly sections. If we move * the ARM functions to a separate file and arrange for it to be compiled * without thumb mode, we can save some time on entry. */ /* This is slightly suboptimal; __thumb__ and __thumb2__ become defined * and undefined by #pragma arm/#pragma thumb - but we can't define a * macro to track that. */ #if defined(__thumb__) || defined(__thumb2__) #define ENTER_ARM ".balign 4\nmov r12,pc\nbx r12\n0:.arm\n" #define ENTER_THUMB "9:.thumb\n" #else #define ENTER_ARM #define ENTER_THUMB #endif #endif #ifdef CLUSTER /* Include this first so our defines don't clash with the system definitions */ #include /* * Trig functions */ static float my_atan_table[258] = { 0.0000000000f, 0.00390623013f,0.00781234106f,0.0117182136f, 0.0156237286f, 0.0195287670f, 0.0234332099f, 0.0273369383f, 0.0312398334f, 0.0351417768f, 0.0390426500f, 0.0429423347f, 0.0468407129f, 0.0507376669f, 0.0546330792f, 0.0585268326f, 0.0624188100f, 0.0663088949f, 0.0701969711f, 0.0740829225f, 0.0779666338f, 0.0818479898f, 0.0857268758f, 0.0896031775f, 0.0934767812f, 0.0973475735f, 0.1012154420f, 0.1050802730f, 0.1089419570f, 0.1128003810f, 0.1166554350f, 0.1205070100f, 0.1243549950f, 0.1281992810f, 0.1320397620f, 0.1358763280f, 0.1397088740f, 0.1435372940f, 0.1473614810f, 0.1511813320f, 0.1549967420f, 0.1588076080f, 0.1626138290f, 0.1664153010f, 0.1702119250f, 0.1740036010f, 0.1777902290f, 0.1815717110f, 0.1853479500f, 0.1891188490f, 0.1928843120f, 0.1966442450f, 0.2003985540f, 0.2041471450f, 0.2078899270f, 0.2116268090f, 0.2153577000f, 0.2190825110f, 0.2228011540f, 0.2265135410f, 0.2302195870f, 0.2339192060f, 0.2376123140f, 0.2412988270f, 0.2449786630f, 0.2486517410f, 0.2523179810f, 0.2559773030f, 0.2596296290f, 0.2632748830f, 0.2669129880f, 0.2705438680f, 0.2741674510f, 0.2777836630f, 0.2813924330f, 0.2849936890f, 0.2885873620f, 0.2921733830f, 0.2957516860f, 0.2993222020f, 0.3028848680f, 0.3064396190f, 0.3099863910f, 0.3135251230f, 0.3170557530f, 0.3205782220f, 0.3240924700f, 0.3275984410f, 0.3310960770f, 0.3345853220f, 0.3380661230f, 0.3415384250f, 0.3450021770f, 0.3484573270f, 0.3519038250f, 0.3553416220f, 0.3587706700f, 0.3621909220f, 0.3656023320f, 0.3690048540f, 0.3723984470f, 0.3757830650f, 0.3791586690f, 0.3825252170f, 0.3858826690f, 0.3892309880f, 0.3925701350f, 0.3959000740f, 0.3992207700f, 0.4025321870f, 0.4058342930f, 0.4091270550f, 0.4124104420f, 0.4156844220f, 0.4189489670f, 0.4222040480f, 0.4254496370f, 0.4286857080f, 0.4319122350f, 0.4351291940f, 0.4383365600f, 0.4415343100f, 0.4447224240f, 0.4479008790f, 0.4510696560f, 0.4542287350f, 0.4573780990f, 0.4605177290f, 0.4636476090f, 0.4667677240f, 0.4698780580f, 0.4729785980f, 0.4760693300f, 0.4791502430f, 0.4822213240f, 0.4852825630f, 0.4883339510f, 0.4913754780f, 0.4944071350f, 0.4974289160f, 0.5004408130f, 0.5034428210f, 0.5064349340f, 0.5094171490f, 0.5123894600f, 0.5153518660f, 0.5183043630f, 0.5212469510f, 0.5241796290f, 0.5271023950f, 0.5300152510f, 0.5329181980f, 0.5358112380f, 0.5386943730f, 0.5415676050f, 0.5444309400f, 0.5472843810f, 0.5501279330f, 0.5529616020f, 0.5557853940f, 0.5585993150f, 0.5614033740f, 0.5641975770f, 0.5669819340f, 0.5697564530f, 0.5725211450f, 0.5752760180f, 0.5780210840f, 0.5807563530f, 0.5834818390f, 0.5861975510f, 0.5889035040f, 0.5915997100f, 0.5942861830f, 0.5969629370f, 0.5996299860f, 0.6022873460f, 0.6049350310f, 0.6075730580f, 0.6102014430f, 0.6128202020f, 0.6154293530f, 0.6180289120f, 0.6206188990f, 0.6231993300f, 0.6257702250f, 0.6283316020f, 0.6308834820f, 0.6334258830f, 0.6359588250f, 0.6384823300f, 0.6409964180f, 0.6435011090f, 0.6459964250f, 0.6484823880f, 0.6509590190f, 0.6534263410f, 0.6558843770f, 0.6583331480f, 0.6607726790f, 0.6632029930f, 0.6656241120f, 0.6680360620f, 0.6704388650f, 0.6728325470f, 0.6752171330f, 0.6775926450f, 0.6799591110f, 0.6823165550f, 0.6846650020f, 0.6870044780f, 0.6893350100f, 0.6916566220f, 0.6939693410f, 0.6962731940f, 0.6985682070f, 0.7008544080f, 0.7031318220f, 0.7054004770f, 0.7076604000f, 0.7099116190f, 0.7121541600f, 0.7143880520f, 0.7166133230f, 0.7188300000f, 0.7210381110f, 0.7232376840f, 0.7254287490f, 0.7276113330f, 0.7297854640f, 0.7319511710f, 0.7341084830f, 0.7362574290f, 0.7383980370f, 0.7405303370f, 0.7426543560f, 0.7447701260f, 0.7468776740f, 0.7489770290f, 0.7510682220f, 0.7531512810f, 0.7552262360f, 0.7572931160f, 0.7593519510f, 0.7614027700f, 0.7634456020f, 0.7654804790f, 0.7675074280f, 0.7695264800f, 0.7715376650f, 0.7735410110f, 0.7755365500f, 0.7775243100f, 0.7795043220f, 0.7814766150f, 0.7834412190f, 0.7853981630f, 0.7853981630f /* Extended by 1 for interpolation */ }; static inline float my_sinf(float x) { float x2, xn; int i; /* Map x into the -PI to PI range. We could do this using: * x = fmodf(x, 2.0f * FZ_PI); * but that's C99, and seems to misbehave with negative numbers * on some platforms. */ x -= FZ_PI; i = x / (2.0f * FZ_PI); x -= i * 2.0f * FZ_PI; if (x < 0.0f) x += 2.0f * FZ_PI; x -= FZ_PI; if (x <= -FZ_PI / 2.0f) x = -FZ_PI - x; else if (x >= FZ_PI / 2.0f) x = FZ_PI-x; x2 = x * x; xn = x * x2 / 6.0f; x -= xn; xn *= x2 / 20.0f; x += xn; xn *= x2 / 42.0f; x -= xn; xn *= x2 / 72.0f; x += xn; return x; } static inline float my_atan2f(float o, float a) { int negate = 0, flip = 0, i; float r, s; if (o == 0.0f) { if (a > 0) return 0.0f; else return FZ_PI; } if (o < 0) o = -o, negate = 1; if (a < 0) a = -a, flip = 1; if (o < a) i = 65536.0f * o / a + 0.5f; else i = 65536.0f * a / o + 0.5f; r = my_atan_table[i >> 8]; s = my_atan_table[(i >> 8) + 1]; r += (s - r) * (i & 255) / 256.0f; if (o >= a) r = FZ_PI / 2.0f - r; if (flip) r = FZ_PI - r; if (negate) r = -r; return r; } #define sinf(x) my_sinf(x) #define cosf(x) my_sinf(FZ_PI / 2.0f + (x)) #define atan2f(x,y) my_atan2f((x),(y)) #endif static inline int fz_is_pow2(int a) { return (a != 0) && (a & (a-1)) == 0; } #endif