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https://github.com/ZDoom/raze-gles.git
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9b9c009de9
It should be inlined to use it, though, because homegrown loops for this stuff may have been ok in 1995, but not in 2019.
244 lines
7.9 KiB
C++
244 lines
7.9 KiB
C++
// "Build Engine & Tools" Copyright (c) 1993-1997 Ken Silverman
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// Ken Silverman's official web site: "http://www.advsys.net/ken"
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// See the included license file "BUILDLIC.TXT" for license info.
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//
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// This file has been modified from Ken Silverman's original release
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// by Jonathon Fowler (jf@jonof.id.au)
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// by the EDuke32 team (development@voidpoint.com)
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#ifndef pragmas_h_
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#define pragmas_h_
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#define EDUKE32_GENERATE_PRAGMAS \
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EDUKE32_SCALER_PRAGMA(1) EDUKE32_SCALER_PRAGMA(2) EDUKE32_SCALER_PRAGMA(3) EDUKE32_SCALER_PRAGMA(4) \
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EDUKE32_SCALER_PRAGMA(5) EDUKE32_SCALER_PRAGMA(6) EDUKE32_SCALER_PRAGMA(7) EDUKE32_SCALER_PRAGMA(8) \
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EDUKE32_SCALER_PRAGMA(9) EDUKE32_SCALER_PRAGMA(10) EDUKE32_SCALER_PRAGMA(11) EDUKE32_SCALER_PRAGMA(12) \
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EDUKE32_SCALER_PRAGMA(13) EDUKE32_SCALER_PRAGMA(14) EDUKE32_SCALER_PRAGMA(15) EDUKE32_SCALER_PRAGMA(16) \
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EDUKE32_SCALER_PRAGMA(17) EDUKE32_SCALER_PRAGMA(18) EDUKE32_SCALER_PRAGMA(19) EDUKE32_SCALER_PRAGMA(20) \
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EDUKE32_SCALER_PRAGMA(21) EDUKE32_SCALER_PRAGMA(22) EDUKE32_SCALER_PRAGMA(23) EDUKE32_SCALER_PRAGMA(24) \
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EDUKE32_SCALER_PRAGMA(25) EDUKE32_SCALER_PRAGMA(26) EDUKE32_SCALER_PRAGMA(27) EDUKE32_SCALER_PRAGMA(28) \
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EDUKE32_SCALER_PRAGMA(29) EDUKE32_SCALER_PRAGMA(30) EDUKE32_SCALER_PRAGMA(31)
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extern int32_t reciptable[2048], fpuasm;
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// break the C version of divscale out from the others
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// because asm version overflows in drawmapview()
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#define qw(x) ((int64_t)(x)) // quadword cast
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#define dw(x) ((int32_t)(x)) // doubleword cast
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#define wo(x) ((int16_t)(x)) // word cast
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#define by(x) ((uint8_t)(x)) // byte cast
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#define DIVTABLESIZE 16384
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extern libdivide::libdivide_s64_t divtable64[DIVTABLESIZE];
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extern libdivide::libdivide_s32_t divtable32[DIVTABLESIZE];
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extern void initdivtables(void);
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static inline uint32_t divideu32(uint32_t const n, uint32_t const d)
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{
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static libdivide::libdivide_u32_t udiv;
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static uint32_t lastd;
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if (d == lastd)
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goto skip;
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udiv = libdivide::libdivide_u32_gen((lastd = d));
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skip:
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return libdivide::libdivide_u32_do(n, &udiv);
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}
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static inline int64_t tabledivide64(int64_t const n, int64_t const d)
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{
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static libdivide::libdivide_s64_t sdiv;
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static int32_t lastd;
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auto const dptr = ((unsigned)d < DIVTABLESIZE) ? &divtable64[d] : &sdiv;
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if (d == lastd || dptr != &sdiv)
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goto skip;
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sdiv = libdivide::libdivide_s64_gen((lastd = d));
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skip:
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return libdivide::libdivide_s64_do(n, dptr);
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}
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static inline int32_t tabledivide32(int32_t const n, int32_t const d)
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{
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static libdivide::libdivide_s32_t sdiv;
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static int32_t lastd;
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auto const dptr = ((unsigned)d < DIVTABLESIZE) ? &divtable32[d] : &sdiv;
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if (d == lastd || dptr != &sdiv)
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goto skip;
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sdiv = libdivide::libdivide_s32_gen((lastd = d));
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skip:
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return libdivide::libdivide_s32_do(n, dptr);
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}
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extern uint32_t divideu32_noinline(uint32_t n, uint32_t d);
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extern int32_t tabledivide32_noinline(int32_t n, int32_t d);
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extern int64_t tabledivide64_noinline(int64_t n, int64_t d);
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static inline int32_t divscale(int32_t eax, int32_t ebx, int32_t ecx) { return dw(tabledivide64(qw(eax) << by(ecx), ebx)); }
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static inline int64_t divscale64(int64_t eax, int64_t ebx, int64_t ecx) { return tabledivide64(eax << ecx, ebx); }
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#define EDUKE32_SCALER_PRAGMA(a) \
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static FORCE_INLINE int32_t divscale##a(int32_t eax, int32_t ebx) { return divscale(eax, ebx, a); }
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EDUKE32_GENERATE_PRAGMAS EDUKE32_SCALER_PRAGMA(32)
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#undef EDUKE32_SCALER_PRAGMA
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static inline int32_t scale(int32_t eax, int32_t edx, int32_t ecx)
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{
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return dw(tabledivide64(qw(eax) * edx, ecx));
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}
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static FORCE_INLINE int32_t scaleadd(int32_t eax, int32_t edx, int32_t addend, int32_t ecx)
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{
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return dw(tabledivide64(qw(eax) * edx + addend, ecx));
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}
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static inline int32_t roundscale(int32_t eax, int32_t edx, int32_t ecx)
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{
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return scaleadd(eax, edx, ecx / 2, ecx);
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}
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//
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// Generic C
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//
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#ifndef pragmas_have_mulscale
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#define EDUKE32_SCALER_PRAGMA(a) \
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static FORCE_INLINE CONSTEXPR int32_t mulscale##a(int32_t eax, int32_t edx) { return dw((qw(eax) * edx) >> by(a)); } \
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static FORCE_INLINE CONSTEXPR int32_t dmulscale##a(int32_t eax, int32_t edx, int32_t esi, int32_t edi) \
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{ \
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return dw(((qw(eax) * edx) + (qw(esi) * edi)) >> by(a)); \
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} \
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static FORCE_INLINE CONSTEXPR int32_t tmulscale##a(int32_t eax, int32_t edx, int32_t ebx, int32_t ecx, int32_t esi, int32_t edi) \
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{ \
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return dw(((qw(eax) * edx) + (qw(ebx) * ecx) + (qw(esi) * edi)) >> by(a)); \
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}
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EDUKE32_GENERATE_PRAGMAS EDUKE32_SCALER_PRAGMA(32)
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#undef EDUKE32_SCALER_PRAGMA
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#endif
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template <typename T>
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static FORCE_INLINE void swap(T * const a, T * const b)
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{
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T const t = *a;
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*a = *b;
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*b = t;
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}
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#define swapptr swap
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#ifndef pragmas_have_swaps
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#define swapchar swap
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#define swapshort swap
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#define swaplong swap
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#define swapfloat swap
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#define swapdouble swap
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#define swap64bit swap
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static FORCE_INLINE void swapchar2(void *a, void *b, int32_t s)
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{
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swapchar((char *)a, (char *)b);
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swapchar((char *)a + 1, (char *)b + s);
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}
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#endif
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static FORCE_INLINE CONSTEXPR char readpixel(void *s) { return *(char *)s; }
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#ifndef pragmas_have_klabs
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#if 0
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static FORCE_INLINE int32_t klabs(int32_t const a)
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{
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uint32_t const m = a >> (sizeof(uint32_t) * CHAR_BIT - 1);
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return (a ^ m) - m;
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}
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#else
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#define klabs(x) abs(x)
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#endif
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#endif
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#ifndef pragmas_have_ksgn
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static FORCE_INLINE CONSTEXPR int ksgn(int32_t a) { return (a > 0) - (a < 0); }
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#endif
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#ifndef pragmas_have_mulscale
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static FORCE_INLINE CONSTEXPR int32_t mulscale(int32_t eax, int32_t edx, int32_t ecx) { return dw((qw(eax) * edx) >> by(ecx)); }
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static FORCE_INLINE CONSTEXPR int32_t dmulscale(int32_t eax, int32_t edx, int32_t esi, int32_t edi, int32_t ecx)
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{
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return dw(((qw(eax) * edx) + (qw(esi) * edi)) >> by(ecx));
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}
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#endif
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#ifndef pragmas_have_qinterpolatedown16
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void qinterpolatedown16(intptr_t bufptr, int32_t num, int32_t val, int32_t add);
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void qinterpolatedown16short(intptr_t bufptr, int32_t num, int32_t val, int32_t add);
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#endif
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#ifndef pragmas_have_clearbuf
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void clearbuf(void *d, int32_t c, int32_t a);
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#endif
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#ifndef pragmas_have_copybuf
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void copybuf(const void *s, void *d, int32_t c);
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#endif
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#ifndef pragmas_have_swaps
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void swapbuf4(void *a, void *b, int32_t c);
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#endif
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#ifndef pragmas_have_clearbufbyte
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void clearbufbyte(void *D, int32_t c, int32_t a);
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#endif
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#ifndef pragmas_have_copybufbyte
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void copybufbyte(const void *S, void *D, int32_t c);
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#endif
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#ifndef pragmas_have_copybufreverse
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void copybufreverse(const void *S, void *D, int32_t c);
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#endif
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#ifndef pragmas_have_krecipasm
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static inline int32_t krecipasm(int32_t i)
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{
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// Ken did this
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union { int32_t i; float f; } x;
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x.f = (float)i;
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i = x.i;
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return ((reciptable[(i >> 12) & 2047] >> (((i - 0x3f800000) >> 23) & 31)) ^ (i >> 31));
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}
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#endif
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#undef qw
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#undef dw
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#undef wo
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#undef by
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static inline void swapbufreverse(void *s, void *d, int32_t c)
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{
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uint8_t *src = (uint8_t *)s, *dst = (uint8_t *)d;
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Bassert(c >= 4);
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do
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{
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swapchar(dst, src);
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swapchar(dst + 1, src - 1);
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swapchar(dst + 2, src - 2);
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swapchar(dst + 3, src - 3);
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dst += 4, src -= 4;
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} while ((c -= 4) > 4);
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while (c--)
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swapchar(dst++, src--);
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}
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#endif // pragmas_h_
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