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#ifndef UTIL_H__ |
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#define UTIL_H__ |
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|
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//#define PREFER_MALLOC |
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|
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#if __GNUC__ >= 3 |
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# define is_constant(c) __builtin_constant_p (c) |
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#else |
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# define is_constant(c) 0 |
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#endif |
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|
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#include <cstddef> |
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#include <cmath> |
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#include <new> |
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#include <vector> |
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|
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#include <glib.h> |
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|
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#include <shstr.h> |
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#include <traits.h> |
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|
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// use a gcc extension for auto declarations until ISO C++ sanctifies them |
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#define AUTODECL(var,expr) typeof(expr) var = (expr) |
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|
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// very ugly macro that basicaly declares and initialises a variable |
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// that is in scope for the next statement only |
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// works only for stuff that can be assigned 0 and converts to false |
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// (note: works great for pointers) |
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// most ugly macro I ever wrote |
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#define declvar(type, name, value) if (type name = 0) { } else if (((name) = (value)), 1) |
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|
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// in range including end |
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#define IN_RANGE_INC(val,beg,end) \ |
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((unsigned int)(val) - (unsigned int)(beg) <= (unsigned int)(end) - (unsigned int)(beg)) |
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|
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// in range excluding end |
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#define IN_RANGE_EXC(val,beg,end) \ |
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((unsigned int)(val) - (unsigned int)(beg) < (unsigned int)(end) - (unsigned int)(beg)) |
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|
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void fork_abort (const char *msg); |
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|
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// rationale for using (U) not (T) is to reduce signed/unsigned issues, |
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// as a is often a constant while b is the variable. it is still a bug, though. |
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template<typename T, typename U> static inline T min (T a, U b) { return (U)a < b ? (U)a : b; } |
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template<typename T, typename U> static inline T max (T a, U b) { return (U)a > b ? (U)a : b; } |
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template<typename T, typename U, typename V> static inline T clamp (T v, U a, V b) { return v < (T)a ? (T)a : v >(T)b ? (T)b : v; } |
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|
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template<typename T, typename U> static inline void swap (T& a, U& b) { T t=a; a=(T)b; b=(U)t; } |
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|
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// lots of stuff taken from FXT |
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|
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/* Rotate right. This is used in various places for checksumming */ |
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//TODO: that sucks, use a better checksum algo |
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static inline uint32_t |
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rotate_right (uint32_t c, uint32_t count = 1) |
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{ |
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return (c << (32 - count)) | (c >> count); |
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} |
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|
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static inline uint32_t |
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rotate_left (uint32_t c, uint32_t count = 1) |
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{ |
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return (c >> (32 - count)) | (c << count); |
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} |
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|
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// Return abs(a-b) |
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// Both a and b must not have the most significant bit set |
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static inline uint32_t |
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upos_abs_diff (uint32_t a, uint32_t b) |
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{ |
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long d1 = b - a; |
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long d2 = (d1 & (d1 >> 31)) << 1; |
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|
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return d1 - d2; // == (b - d) - (a + d); |
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} |
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|
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// Both a and b must not have the most significant bit set |
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static inline uint32_t |
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upos_min (uint32_t a, uint32_t b) |
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{ |
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int32_t d = b - a; |
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d &= d >> 31; |
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return a + d; |
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} |
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|
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// Both a and b must not have the most significant bit set |
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static inline uint32_t |
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upos_max (uint32_t a, uint32_t b) |
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{ |
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int32_t d = b - a; |
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d &= d >> 31; |
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return b - d; |
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} |
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|
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// this is much faster than crossfires original algorithm |
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// on modern cpus |
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inline int |
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isqrt (int n) |
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{ |
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return (int)sqrtf ((float)n); |
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} |
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|
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// this is only twice as fast as naive sqrtf (dx*dy+dy*dy) |
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#if 0 |
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// and has a max. error of 6 in the range -100..+100. |
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#else |
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// and has a max. error of 9 in the range -100..+100. |
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#endif |
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inline int |
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idistance (int dx, int dy) |
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{ |
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unsigned int dx_ = abs (dx); |
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unsigned int dy_ = abs (dy); |
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|
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#if 0 |
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return dx_ > dy_ |
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? (dx_ * 61685 + dy_ * 26870) >> 16 |
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: (dy_ * 61685 + dx_ * 26870) >> 16; |
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#else |
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return dx_ + dy_ - min (dx_, dy_) * 5 / 8; |
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#endif |
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} |
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|
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/* |
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* absdir(int): Returns a number between 1 and 8, which represent |
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* the "absolute" direction of a number (it actually takes care of |
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* "overflow" in previous calculations of a direction). |
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*/ |
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inline int |
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absdir (int d) |
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{ |
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return ((d - 1) & 7) + 1; |
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} |
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|
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// makes dynamically allocated objects zero-initialised |
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struct zero_initialised |
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{ |
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void *operator new (size_t s, void *p) |
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{ |
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memset (p, 0, s); |
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return p; |
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} |
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|
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void *operator new (size_t s) |
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{ |
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return g_slice_alloc0 (s); |
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} |
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|
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void *operator new[] (size_t s) |
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{ |
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return g_slice_alloc0 (s); |
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} |
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|
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void operator delete (void *p, size_t s) |
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{ |
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g_slice_free1 (s, p); |
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} |
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|
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void operator delete[] (void *p, size_t s) |
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{ |
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g_slice_free1 (s, p); |
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} |
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}; |
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|
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void *salloc_ (int n) throw (std::bad_alloc); |
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void *salloc_ (int n, void *src) throw (std::bad_alloc); |
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|
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// strictly the same as g_slice_alloc, but never returns 0 |
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template<typename T> |
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inline T *salloc (int n = 1) throw (std::bad_alloc) { return (T *)salloc_ (n * sizeof (T)); } |
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|
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// also copies src into the new area, like "memdup" |
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// if src is 0, clears the memory |
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template<typename T> |
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inline T *salloc (int n, T *src) throw (std::bad_alloc) { return (T *)salloc_ (n * sizeof (T), (void *)src); } |
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|
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// clears the memory |
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template<typename T> |
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inline T *salloc0(int n = 1) throw (std::bad_alloc) { return (T *)salloc_ (n * sizeof (T), 0); } |
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|
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// for symmetry |
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template<typename T> |
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inline void sfree (T *ptr, int n = 1) throw () |
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{ |
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#ifdef PREFER_MALLOC |
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free (ptr); |
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#else |
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g_slice_free1 (n * sizeof (T), (void *)ptr); |
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#endif |
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} |
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|
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// a STL-compatible allocator that uses g_slice |
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// boy, this is verbose |
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template<typename Tp> |
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struct slice_allocator |
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{ |
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typedef size_t size_type; |
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typedef ptrdiff_t difference_type; |
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typedef Tp *pointer; |
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typedef const Tp *const_pointer; |
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typedef Tp &reference; |
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typedef const Tp &const_reference; |
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typedef Tp value_type; |
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|
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template <class U> |
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struct rebind |
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{ |
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typedef slice_allocator<U> other; |
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}; |
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|
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slice_allocator () throw () { } |
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slice_allocator (const slice_allocator &o) throw () { } |
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template<typename Tp2> |
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slice_allocator (const slice_allocator<Tp2> &) throw () { } |
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|
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~slice_allocator () { } |
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|
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pointer address (reference x) const { return &x; } |
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const_pointer address (const_reference x) const { return &x; } |
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|
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pointer allocate (size_type n, const_pointer = 0) |
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{ |
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return salloc<Tp> (n); |
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} |
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|
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void deallocate (pointer p, size_type n) |
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{ |
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sfree<Tp> (p, n); |
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} |
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|
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size_type max_size ()const throw () |
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{ |
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return size_t (-1) / sizeof (Tp); |
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} |
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|
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void construct (pointer p, const Tp &val) |
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{ |
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::new (p) Tp (val); |
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} |
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|
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void destroy (pointer p) |
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{ |
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p->~Tp (); |
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} |
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}; |
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|
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// P. L'Ecuyer, “Maximally Equidistributed Combined Tausworthe Generators”, Mathematics of Computation, 65, 213 (1996), 203–213. |
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// http://www.iro.umontreal.ca/~lecuyer/myftp/papers/tausme.ps |
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// http://www.iro.umontreal.ca/~lecuyer/myftp/papers/tausme2.ps |
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struct tausworthe_random_generator |
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{ |
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// generator |
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uint32_t state [4]; |
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|
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void operator =(const tausworthe_random_generator &src) |
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{ |
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state [0] = src.state [0]; |
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state [1] = src.state [1]; |
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state [2] = src.state [2]; |
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state [3] = src.state [3]; |
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} |
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|
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void seed (uint32_t seed); |
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uint32_t next (); |
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|
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// uniform distribution |
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uint32_t operator ()(uint32_t r_max) |
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{ |
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return is_constant (r_max) |
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? this->next () % r_max |
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: get_range (r_max); |
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} |
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|
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// return a number within (min .. max) |
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int operator () (int r_min, int r_max) |
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{ |
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return is_constant (r_min) && is_constant (r_max) |
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? r_min + (*this) (max (r_max - r_min + 1, 1)) |
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: get_range (r_min, r_max); |
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} |
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|
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double operator ()() |
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{ |
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return this->next () / (double)0xFFFFFFFFU; |
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} |
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|
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protected: |
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uint32_t get_range (uint32_t r_max); |
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int get_range (int r_min, int r_max); |
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}; |
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|
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typedef tausworthe_random_generator rand_gen; |
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|
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extern rand_gen rndm; |
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|
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template<class T> |
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struct refptr |
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{ |
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T *p; |
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|
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refptr () : p(0) { } |
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refptr (const refptr<T> &p) : p(p.p) { if (p) p->refcnt_inc (); } |
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refptr (T *p) : p(p) { if (p) p->refcnt_inc (); } |
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~refptr () { if (p) p->refcnt_dec (); } |
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|
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const refptr<T> &operator =(T *o) |
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{ |
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if (p) p->refcnt_dec (); |
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p = o; |
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if (p) p->refcnt_inc (); |
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|
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return *this; |
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} |
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|
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const refptr<T> &operator =(const refptr<T> o) |
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{ |
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*this = o.p; |
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return *this; |
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} |
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|
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T &operator * () const { return *p; } |
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T *operator ->() const { return p; } |
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|
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operator T *() const { return p; } |
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}; |
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|
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typedef refptr<maptile> maptile_ptr; |
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typedef refptr<object> object_ptr; |
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typedef refptr<archetype> arch_ptr; |
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typedef refptr<client> client_ptr; |
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typedef refptr<player> player_ptr; |
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|
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struct str_hash |
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{ |
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std::size_t operator ()(const char *s) const |
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{ |
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unsigned long hash = 0; |
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|
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/* use the one-at-a-time hash function, which supposedly is |
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* better than the djb2-like one used by perl5.005, but |
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* certainly is better then the bug used here before. |
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* see http://burtleburtle.net/bob/hash/doobs.html |
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*/ |
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while (*s) |
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{ |
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hash += *s++; |
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hash += hash << 10; |
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hash ^= hash >> 6; |
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} |
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|
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hash += hash << 3; |
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hash ^= hash >> 11; |
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hash += hash << 15; |
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|
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return hash; |
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} |
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}; |
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|
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struct str_equal |
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{ |
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bool operator ()(const char *a, const char *b) const |
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{ |
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return !strcmp (a, b); |
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} |
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}; |
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|
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template<class T> |
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struct unordered_vector : std::vector<T, slice_allocator<T> > |
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{ |
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typedef typename unordered_vector::iterator iterator; |
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|
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void erase (unsigned int pos) |
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{ |
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if (pos < this->size () - 1) |
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(*this)[pos] = (*this)[this->size () - 1]; |
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|
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this->pop_back (); |
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} |
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|
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void erase (iterator i) |
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{ |
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erase ((unsigned int )(i - this->begin ())); |
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} |
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}; |
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|
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template<class T, int T::* index> |
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struct object_vector : std::vector<T *, slice_allocator<T *> > |
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{ |
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void insert (T *obj) |
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{ |
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assert (!(obj->*index)); |
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push_back (obj); |
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obj->*index = this->size (); |
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} |
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|
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void insert (T &obj) |
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{ |
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insert (&obj); |
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} |
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|
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void erase (T *obj) |
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{ |
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assert (obj->*index); |
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unsigned int pos = obj->*index; |
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obj->*index = 0; |
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|
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if (pos < this->size ()) |
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{ |
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(*this)[pos - 1] = (*this)[this->size () - 1]; |
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(*this)[pos - 1]->*index = pos; |
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} |
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|
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this->pop_back (); |
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} |
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|
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void erase (T &obj) |
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{ |
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errase (&obj); |
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} |
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}; |
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|
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// basically does what strncpy should do, but appends "..." to strings exceeding length |
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void assign (char *dst, const char *src, int maxlen); |
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|
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// type-safe version of assign |
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template<int N> |
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inline void assign (char (&dst)[N], const char *src) |
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{ |
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assign ((char *)&dst, src, N); |
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} |
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|
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typedef double tstamp; |
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|
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// return current time as timestampe |
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tstamp now (); |
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|
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int similar_direction (int a, int b); |
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|
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#endif |
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|