ultimatepp/uppdev/CoreTopics/Defs.h

#ifdef PLATFORM_WIN32
#define __BREAK__        (*(int *)0 = 0)
#else
#define __BREAK__        (*(int *)0 = 0) // kill(getpid(), SIGTRAP)
#endif

#ifdef COMPILER_MSC
	#pragma warning(disable : 4800)
	#pragma warning(disable : 4129)
	#pragma warning(disable : 4290)
	#pragma warning(disable : 4068)
	#pragma warning(disable : 4005)
	#pragma warning(disable : 4675)
	#pragma warning(disable : 4996)

	#pragma setlocale("C")
#endif

bool    IsPanicMode();

void    Panic(const char *msg);

void    AssertFailed(const char *file, int line, const char *cond);

void    InstallPanicMessageBox(void (*mb)(const char *title, const char *text));
void    PanicMessageBox(const char *title, const char *text);

#define VERIFY(x)        ((x) ? (void)0 : UPP::AssertFailed(__FILE__, __LINE__, #x))

#ifdef _DEBUG

#define ASSERT_(x, msg)  ((x) ? (void)0 : UPP::AssertFailed(__FILE__, __LINE__, msg))
#define ASSERT(x)        ASSERT_(x, #x)

#else

#define ASSERT_(x, msg)
#define ASSERT(x)

#endif

#define _cm_  ,

#define __countof(a)          int(sizeof(a) / sizeof(a[0]))

#define __Expand1(x) x(1)
#define __Expand2(x)  __Expand1(x) x(2)
#define __Expand3(x)  __Expand2(x) x(3)
#define __Expand4(x)  __Expand3(x) x(4)
#define __Expand5(x)  __Expand4(x) x(5)
#define __Expand6(x)  __Expand5(x) x(6)
#define __Expand7(x)  __Expand6(x) x(7)
#define __Expand8(x)  __Expand7(x) x(8)
#define __Expand9(x)  __Expand8(x) x(9)
#define __Expand10(x) __Expand9(x) x(10)
#define __Expand11(x) __Expand10(x) x(11)
#define __Expand12(x) __Expand11(x) x(12)
#define __Expand13(x) __Expand12(x) x(13)
#define __Expand14(x) __Expand13(x) x(14)
#define __Expand15(x) __Expand14(x) x(15)
#define __Expand16(x) __Expand15(x) x(16)
#define __Expand17(x) __Expand16(x) x(17)
#define __Expand18(x) __Expand17(x) x(18)
#define __Expand19(x) __Expand18(x) x(19)
#define __Expand20(x) __Expand19(x) x(20)
#define __Expand21(x) __Expand20(x) x(21)
#define __Expand22(x) __Expand21(x) x(22)
#define __Expand23(x) __Expand22(x) x(23)
#define __Expand24(x) __Expand23(x) x(24)
#define __Expand25(x) __Expand24(x) x(25)
#define __Expand26(x) __Expand25(x) x(26)
#define __Expand27(x) __Expand26(x) x(27)
#define __Expand28(x) __Expand27(x) x(28)
#define __Expand29(x) __Expand28(x) x(29)
#define __Expand30(x) __Expand29(x) x(30)
#define __Expand31(x) __Expand30(x) x(31)
#define __Expand32(x) __Expand31(x) x(32)
#define __Expand33(x) __Expand32(x) x(33)
#define __Expand34(x) __Expand33(x) x(34)
#define __Expand35(x) __Expand34(x) x(35)
#define __Expand36(x) __Expand35(x) x(36)
#define __Expand37(x) __Expand36(x) x(37)
#define __Expand38(x) __Expand37(x) x(38)
#define __Expand39(x) __Expand38(x) x(39)
#define __Expand40(x) __Expand39(x) x(40)

#define __Expand(x)   __Expand40(x)

#define __List1(x) x(1)
#define __List2(x)  __List1(x), x(2)
#define __List3(x)  __List2(x), x(3)
#define __List4(x)  __List3(x), x(4)
#define __List5(x)  __List4(x), x(5)
#define __List6(x)  __List5(x), x(6)
#define __List7(x)  __List6(x), x(7)
#define __List8(x)  __List7(x), x(8)
#define __List9(x)  __List8(x), x(9)
#define __List10(x) __List9(x), x(10)
#define __List11(x) __List10(x), x(11)
#define __List12(x) __List11(x), x(12)
#define __List13(x) __List12(x), x(13)
#define __List14(x) __List13(x), x(14)
#define __List15(x) __List14(x), x(15)
#define __List16(x) __List15(x), x(16)
#define __List17(x) __List16(x), x(17)
#define __List18(x) __List17(x), x(18)
#define __List19(x) __List18(x), x(19)
#define __List20(x) __List19(x), x(20)
#define __List21(x) __List20(x), x(21)
#define __List22(x) __List21(x), x(22)
#define __List23(x) __List22(x), x(23)
#define __List24(x) __List23(x), x(24)
#define __List25(x) __List24(x), x(25)
#define __List26(x) __List25(x), x(26)
#define __List27(x) __List26(x), x(27)
#define __List28(x) __List27(x), x(28)
#define __List29(x) __List28(x), x(29)
#define __List30(x) __List29(x), x(30)
#define __List31(x) __List30(x), x(31)
#define __List32(x) __List31(x), x(32)
#define __List33(x) __List32(x), x(33)
#define __List34(x) __List33(x), x(34)
#define __List35(x) __List34(x), x(35)
#define __List36(x) __List35(x), x(36)
#define __List37(x) __List36(x), x(37)
#define __List38(x) __List37(x), x(38)
#define __List39(x) __List38(x), x(39)
#define __List40(x) __List39(x), x(40)

#define E__p(I)       p##I

#define ASSTRING_(x)  #x
#define ASSTRING(x)   ASSTRING_(x)

#define COMBINE__(a, b)            a##b
#define COMBINE(a, b)              COMBINE__(a, b)

#define COMBINE3__(a, b, c)        a##b##c
#define COMBINE3(a, b, c)          COMBINE3__(a, b, c)

#define COMBINE4__(a, b, c, d)     a##b##c##d
#define COMBINE4(a, b, c, d)       COMBINE4__(a, b, c, d)

#define COMBINE5__(a, b, c, d, e)  a##b##c##d##e
#define COMBINE5(a, b, c, d, e)    COMBINE5__(a, b, c, d, e)

#define MK__s__(x)       s__s##x
#define MK__s_(x)        MK__s__(x)

#ifdef  BLITZ_INDEX__
#define MK__s            MK__s_(COMBINE3(BLITZ_INDEX__, _, __LINE__))
#else
#define MK__s            MK__s_(__LINE__)
#endif

#ifdef flagCHECKINIT
void InitBlockBegin__(const char *fn, int line);
void InitBlockEnd__(const char *fn, int line);
#else
inline void InitBlockBegin__(const char *, int) {}
inline void InitBlockEnd__(const char *, int) {}
#endif

struct Callinit {
	Callinit(void (*fn)(), const char *cpp, int line) { InitBlockBegin__(cpp, line); fn(); InitBlockEnd__(cpp, line); }
	Callinit(void (*fn)())                            { fn(); }
};

struct Callexit {
	Callexit(void (*fn)()) { atexit(fn); }
};


// deprecated, use INITBLOCK
#define INITCODE(x) \
static void COMBINE(MK__s, _fn)() { x } static UPP::Callinit MK__s(COMBINE(MK__s, _fn), __FILE__, __LINE__);


#define INITBLOCK \
static void COMBINE(MK__s, _fn)(); static UPP::Callinit MK__s(COMBINE(MK__s, _fn), __FILE__, __LINE__); \
static void COMBINE(MK__s, _fn)()

#define INITBLOCK_(x) \
static void COMBINE(x, _fn)(); static UPP::Callinit x(COMBINE(x, _fn), __FILE__, __LINE__); \
static void COMBINE(x, _fn)()


// deprecated, use EXITBLOCK
#define EXITCODE(x) \
static void COMBINE(MK__s, _fn)() { x } static UPP::Callexit MK__s(COMBINE(MK__s, _fn));


#define EXITBLOCK \
static void COMBINE(MK__s, _fn)(); static UPP::Callexit MK__s(COMBINE(MK__s, _fn)); \
static void COMBINE(MK__s, _fn)()

#define EXITBLOCK_(x) \
static void COMBINE(x, _fn)(); static UPP::Callexit x(COMBINE(x, _fn)); \
static void COMBINE(x, _fn)()

#ifdef min
#undef min
#endif

#ifdef max
#undef max
#endif

template <class T> inline const T& min(const T& a, const T& b) { return a < b ? a : b; }
template <class T> inline const T& max(const T& a, const T& b) { return a > b ? a : b; }

template <class T>
inline T minmax(T x, T _min, T _max)                           { return min(max(x, _min), _max); }

typedef unsigned char      byte;
typedef signed char        int8;
typedef unsigned char      uint8;

typedef short unsigned     word;
typedef short int          int16;
typedef short unsigned     uint16;

#ifdef PLATFORM_WIN32
typedef unsigned long      dword;
typedef long               int32;
typedef unsigned long      uint32;
typedef WCHAR              wchar;
#else
typedef unsigned int       dword;
typedef int                int32;
typedef unsigned int       uint32;
typedef word               wchar;
#endif


#ifdef COMPILER_MSC
typedef __int64            int64;
typedef unsigned __int64   uint64;
#else
typedef long long int      int64;
typedef long long unsigned uint64;
#endif

typedef uint64             qword;

#ifdef COMPILER_MSC
	#define I64(c) ((int64)COMBINE(c, i64))
#else
	#define I64(c) ((int64)COMBINE(c, LL))
#endif

#ifndef INT64_MIN
#define INT64_MIN          I64(-0x8000000000000000)
#endif
#ifndef INT64_MAX
#define INT64_MAX          I64(+0x7FFFFFFFFFFFFFFF)
#endif

#if !defined(PLATFORM_WIN32)

#define HIBYTE(a)        (byte)((a) >> 8)
#define LOBYTE(a)        byte(a)
#define HIWORD(a)        (word)((a) >> 16)
#define LOWORD(a)        word(a)

#define MAKEWORD(a, b)   ((word)  (((byte) (a)) | ((word) ((byte) (b))) << 8))
#define MAKELONG(a, b)   ((dword) (((word) (a)) | ((dword) ((word) (b))) << 16))

#endif

#define MAKEQWORD(a, b)  ((qword) (((dword) (a)) | ((qword) ((dword) (b))) << 32))
#define HIDWORD(a)       (dword)((a) >> 32)
#define LODWORD(a)       dword(a)

#define OFFSETOF(clss, mbr) ((int)(uintptr_t)&(((clss *)1)->mbr) - 1)

#ifdef COMPILER_MSC
#define pick_
#else
#define pick_ const
#endif

#define init_

#define BINARY(i, f) \
extern "C" byte *i; \
extern "C" int COMBINE(i, _length);

#define BINARY_ARRAY(i, x, f) \
extern "C" byte *i[]; \
extern "C" int COMBINE(i, _length)[]; \
extern "C" int COMBINE(i, _count);

#define BINARY_MASK(i, m) \
extern "C" byte *i[]; \
extern "C" int COMBINE(i, _length)[]; \
extern "C" int COMBINE(i, _count); \
extern "C" char *COMBINE(i, _files)[];

int RegisterTypeNo__(const char *type);

template <class T>
int RegisterTypeNo___()
{
	return RegisterTypeNo__(typeid(T).name());
}

template <class T>
inline int StaticTypeNo() {
	static int typeno = -1;
	if(typeno < 0)
		typeno = RegisterTypeNo___<T>();
	return typeno;
}

#if defined(flagMT)
	#if defined(PLATFORM_WIN32) && defined(COMPILER_GCC)
		#define flagUSEMALLOC //MINGW does not support
	#endif
#endif

#ifndef  flagUSEMALLOC
#define UPP_HEAP
#endif

#ifdef UPP_HEAP

void *MemoryAllocPermanent(size_t size);

void *MemoryAllocSz(size_t& size);
void *MemoryAlloc(size_t size);
void  MemoryFree(void *ptr);
void *MemoryAlloc32();
void  MemoryFree32(void *ptr);
void *MemoryAlloc48();
void  MemoryFree48(void *ptr);
void  MemoryFreeThread();
void  MemoryCheck();
int   MemoryUsedKb();


void  MemoryBreakpoint(dword serial);

void  MemoryInitDiagnostics();
void  MemoryDumpLeaks();

enum MemoryProbeFlags {
	MEMORY_PROBE_FULL    = 1,
	MEMORY_PROBE_FREE    = 2,
	MEMORY_PROBE_MIXED   = 4,
	MEMORY_PROBE_LARGE   = 8,
	MEMORY_PROBE_SUMMARY = 16,
};

#ifdef HEAPDBG
void  MemoryIgnoreLeaksBegin();
void  MemoryIgnoreLeaksEnd();

void  MemoryCheckDebug();
#else
inline void  MemoryIgnoreLeaksBegin() {}
inline void  MemoryIgnoreLeaksEnd() {}

inline void  MemoryCheckDebug() {}
#endif

struct MemoryProfile {
	int    allocated[1024];
	int    fragmented[1024];
	int    freepages;
	int    large_count;
	size_t large_size[1024];
	size_t large_total;
	int    large_free_count;
	size_t large_free_size[1024];
	int    large_free_total;

	MemoryProfile();
};

MemoryProfile *PeakMemoryProfile();

#else

inline void  *MemoryAllocPermanent(size_t size)                { return malloc(size); }
inline void  *MemoryAlloc(size_t size)     { return new byte[size]; }
inline void  *MemoryAllocSz(size_t &size)  { return new byte[size]; }
inline void   MemoryFree(void *p)          { delete[] (byte *) p; }
inline void  *MemoryAlloc32()              { return new byte[32]; }
inline void  *MemoryAlloc48()              { return new byte[48]; }
inline void   MemoryFree32(void *ptr)      { delete[] (byte *)ptr; }
inline void   MemoryFree48(void *ptr)      { delete[] (byte *)ptr; }
inline void   MemoryInitDiagnostics()      {}
inline void   MemoryCheck() {}
inline void   MemoryCheckDebug() {}
inline int    MemoryUsedKb() { return 0; }

inline void  MemoryIgnoreLeaksBegin() {}
inline void  MemoryIgnoreLeaksEnd() {}

struct MemoryProfile {
	int allocated[1024];
	int fragmented[1024];
	int freepages;
	int large_count;
	int large_size[4096];
	int large_total;
	int large_free_count;
	int large_free_size[4096];
	int large_free_total;

	MemoryProfile() { memset(this, 0, sizeof(MemoryProfile)); }
};

inline MemoryProfile *PeakMemoryProfile() { return NULL; }

#endif

struct MemoryIgnoreLeaksBlock {
	MemoryIgnoreLeaksBlock()  { MemoryIgnoreLeaksBegin(); }
	~MemoryIgnoreLeaksBlock() { MemoryIgnoreLeaksEnd(); }
};

#ifdef CPU_X86
bool CpuMMX();
bool CpuSSE();
bool CpuSSE2();
bool CpuSSE3();
#endif

int  CPU_Cores();

bool IsDecentMachine();

template <class T>
inline void Swap(T& a, T& b) { T tmp = a; a = b; b = tmp; }

#if defined(CPU_UNALIGNED) && defined(CPU_LE)
inline int    Peek16le(const void *ptr)  { return *(const word *)ptr; }
inline int    Peek32le(const void *ptr)  { return *(const dword *)ptr; }
inline int64  Peek64le(const void *ptr)  { return *(const int64 *)ptr; }

inline void   Poke16le(const void *ptr, int val)    { *(word *)ptr = val; }
inline void   Poke32le(const void *ptr, int val)    { *(dword *)ptr = val; }
inline void   Poke64le(const void *ptr, int64 val)  { *(int64 *)ptr = val; }
#else
inline int    Peek16le(const void *ptr)  { return MAKEWORD(((byte *)ptr)[0], ((byte *)ptr)[1]); }
inline int    Peek32le(const void *ptr)  { return MAKELONG(Peek16le(ptr), Peek16le((byte *)ptr + 2)); }
inline int64  Peek64le(const void *ptr)  { return MAKEQWORD(Peek32le(ptr), Peek32le((byte *)ptr + 4)); }

inline void   Poke16le(const void *ptr, int val)    { ((byte *)ptr)[0] = LOBYTE(val); ((byte *)ptr)[1] = HIBYTE(val); }
inline void   Poke32le(const void *ptr, int val)    { Poke16le(ptr, LOWORD(val)); Poke16le((byte *)ptr + 2, HIWORD(val)); }
inline void   Poke64le(const void *ptr, int64 val)  { Poke32le(ptr, LODWORD(val)); Poke32le((byte *)ptr + 4, HIDWORD(val)); }
#endif

inline int    Peek16be(const void *ptr)  { return MAKEWORD(((byte *)ptr)[1], ((byte *)ptr)[0]); }
inline int    Peek32be(const void *ptr)  { return MAKELONG(Peek16be((byte *)ptr + 2), Peek16be(ptr)); }
inline int64  Peek64be(const void *ptr)  { return MAKEQWORD(Peek32be((byte *)ptr + 4), Peek32be(ptr)); }

inline void   Poke16be(const void *ptr, int val)    { ((byte *)ptr)[1] = LOBYTE(val); ((byte *)ptr)[0] = HIBYTE(val); }
inline void   Poke32be(const void *ptr, int val)    { Poke16be(ptr, HIWORD(val)); Poke16be((byte *)ptr + 2, LOWORD(val)); }
inline void   Poke64be(const void *ptr, int64 val)  { Poke32be(ptr, HIDWORD(val)); Poke32be((byte *)ptr + 4, LODWORD(val)); }

#if defined(CPU_X86) && (defined(COMPILER_GCC) || defined(COMPILER_MSC))
#ifdef COMPILER_GCC
#ifdef CPU_64
inline word   SwapEndian16(word v)    { __asm__("xchgb %b0,%h0" : "=Q" (v) :  "0" (v)); return v; }
inline int16  SwapEndian16(int16 v)   { __asm__("xchgb %b0,%h0" : "=Q" (v) :  "0" (v)); return v; }
#else
inline word   SwapEndian16(word v)    { __asm__("xchgb %b0,%h0" : "=q" (v) :  "0" (v)); return v; }
inline int16  SwapEndian16(int16 v)   { __asm__("xchgb %b0,%h0" : "=q" (v) :  "0" (v)); return v; }
#endif
inline dword  SwapEndian32(dword v)   { __asm__("bswap %0" : "=r" (v) : "0" (v)); return v; }
inline int    SwapEndian32(int v)     { __asm__("bswap %0" : "=r" (v) : "0" (v)); return v; }
#endif

#ifdef COMPILER_MSC
#pragma intrinsic (_byteswap_ushort, _byteswap_ulong, _byteswap_uint64)

inline word   SwapEndian16(word v)    { return _byteswap_ushort(v); }
inline int16  SwapEndian16(int16 v)   { return _byteswap_ushort(v); }
inline dword  SwapEndian32(dword v)   { return _byteswap_ulong(v); }
inline int    SwapEndian32(int v)     { return _byteswap_ulong(v); }
#endif

inline void   EndianSwap(word& v)     { v = SwapEndian16(v); }
inline void   EndianSwap(int16& v)    { v = SwapEndian16(v); }
inline void   EndianSwap(dword& v)    { v = SwapEndian32(v); }
inline void   EndianSwap(int& v)      { v = SwapEndian32(v); }

#else
inline void   EndianSwap(word& v)     { byte *x = (byte *)(&v); Swap(x[0], x[1]); }
inline void   EndianSwap(int16& v)    { EndianSwap(*(word *)&v); }
inline void   EndianSwap(dword& v)    { byte *x = (byte *)&v; Swap(x[0], x[3]); Swap(x[1], x[2]); }
inline void   EndianSwap(int& v)      { EndianSwap(*(dword *)&v); }
inline word   SwapEndian16(word v)    { EndianSwap(v); return v; }
inline int16  SwapEndian16(int16 v)   { EndianSwap(v); return v; }
inline dword  SwapEndian32(dword v)   { EndianSwap(v); return v; }
inline int    SwapEndian32(int v)     { EndianSwap(v); return v; }
#endif

#if defined(CPU_AMD64) && (defined(COMPILER_GCC) || defined(COMPILER_MSC))
#ifdef COMPILER_GCC
inline uint64  SwapEndian64(uint64 v) { __asm__("bswap %0" : "=r" (v) : "0" (v)); return v; }
inline int64   SwapEndian64(int64 v)  { __asm__("bswap %0" : "=r" (v) : "0" (v)); return v; }
#endif
#ifdef COMPILER_MSC
inline uint64  SwapEndian64(uint64 v) { return _byteswap_uint64(v); }
inline int64   SwapEndian64(int64 v)  { return _byteswap_uint64(v); }
#endif

inline void   EndianSwap(int64& v)    { v = SwapEndian64(v); }
inline void   EndianSwap(uint64& v)   { v = SwapEndian64(v); }

#else
inline void   EndianSwap(int64& v)    { byte *x = (byte *)&v; Swap(x[0], x[7]); Swap(x[1], x[6]); Swap(x[2], x[5]); Swap(x[3], x[4]); }
inline void   EndianSwap(uint64& v)   { EndianSwap(*(int64 *)&v); }
inline int64  SwapEndian64(int64 v)   { EndianSwap(v); return v; }
inline uint64 SwapEndian64(uint64 v)  { EndianSwap(v); return v; }
#endif

void EndianSwap(word *v, int count);
void EndianSwap(int16 *v, int count);
void EndianSwap(dword *v, int count);
void EndianSwap(int *v, int count);
void EndianSwap(int64 *v, int count);
void EndianSwap(uint64 *v, int count);

//Quick fix....
#ifdef PLATFORM_WINCE
const char *FromSysChrSet(const wchar *s);
const wchar *ToSysChrSet(const char *s);
#else
inline const char *FromSysChrSet(const char *s) { return s; }
inline const char *ToSysChrSet(const char *s) { return s; }
#endif

#ifdef _DEBUG
void __LOGF__(const char *format, ...);
#define LOGF             UPP::__LOGF__
#else
inline void __LOGF__(const char *format, ...);
#endif