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root |
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/* this file lives in libptytty/src/estl.h, only edit it there and copy it here */ |
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#ifndef ESTL_H_ |
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#define ESTL_H_ |
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#include <stdlib.h> |
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#include <string.h> |
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#include "ecb.h" |
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template<typename T, typename U> static inline T min (T a, U b) { return a < (T)b ? a : (T)b; } |
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template<typename T, typename U> static inline T max (T a, U b) { return a > (T)b ? a : (T)b; } |
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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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template <typename I, typename T> |
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I find (I first, I last, const T& value) |
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{ |
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while (first != last && *first != value) |
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++first; |
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return first; |
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} |
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#include <new> |
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#if ECB_CPP11 |
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#include <type_traits> |
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#endif |
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namespace estl |
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{ |
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#if ESTL_LARGE_MEMORY_MODEL |
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// should use size_t/ssize_t, but that's not portable enough for us |
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typedef unsigned long size_type; |
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typedef long difference_type; |
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#else |
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typedef uint32_t size_type; |
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typedef int32_t difference_type; |
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#endif |
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template<typename T> |
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struct scoped_ptr |
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{ |
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T *p; |
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scoped_ptr () : p (0) { } |
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explicit |
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scoped_ptr (T *a) : p (a) { } |
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~scoped_ptr () |
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{ |
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delete p; |
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} |
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void reset (T *a) |
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{ |
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delete p; |
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p = a; |
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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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operator T *() { return p; } |
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T *get () const { return p; } |
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private: |
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scoped_ptr (const scoped_ptr &); |
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scoped_ptr &operator =(const scoped_ptr &); |
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}; |
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template<typename T> |
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struct scoped_array |
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{ |
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T *p; |
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scoped_array () : p (0) { } |
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explicit |
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scoped_array (T *a) : p (a) { } |
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~scoped_array () |
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{ |
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delete [] p; |
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} |
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void reset (T *a) |
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{ |
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delete [] p; |
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p = a; |
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} |
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operator T *() { return p; } |
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T *get () const { return p; } |
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private: |
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scoped_array (const scoped_array &); |
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scoped_array &operator =(const scoped_array &); |
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}; |
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} |
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// original version taken from MICO, but this has been completely rewritten |
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// known limitations w.r.t. std::vector |
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// - many methods missing |
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// - no error checking, no exceptions thrown (e.g. at()) |
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// - size_type is 32bit even on 64 bit hosts, so limited to 2**31 elements |
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// - no allocator support |
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// - we don't really care about const correctness, but we try |
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// - we don't care about namespaces and stupid macros the user might define |
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// - no bool specialisation |
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template<class T> |
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struct simplevec |
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{ |
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typedef estl::size_type size_type; |
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typedef T value_type; |
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typedef T *iterator; |
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typedef const T *const_iterator; |
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typedef T *pointer; |
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typedef const T *const_pointer; |
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typedef T &reference; |
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typedef const T &const_reference; |
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// missing: allocator_type |
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// missing: reverse iterator |
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private: |
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size_type sze, res; |
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T *buf; |
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// we shamelessly optimise for "simple" types. everything |
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// "not simple enough" will use the slow path. |
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static bool is_simple_enough () |
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{ |
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#if ECB_CPP11 |
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return std::is_trivially_assignable<T, T>::value |
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&& std::is_trivially_constructible<T>::value |
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&& std::is_trivially_copyable<T>::value |
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&& std::is_trivially_destructible<T>::value; |
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#elif ECB_GCC_VERSION(4,4) || ECB_CLANG_VERSION(2,8) |
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return __has_trivial_assign (T) |
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&& __has_trivial_constructor (T) |
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&& __has_trivial_copy (T) |
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&& __has_trivial_destructor (T); |
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#else |
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return 0; |
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#endif |
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} |
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static void construct (iterator a, size_type n = 1) |
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{ |
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if (!is_simple_enough ()) |
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while (n--) |
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new (a++) T (); |
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} |
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static void destruct (iterator a, size_type n = 1) |
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{ |
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if (!is_simple_enough ()) |
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while (n--) |
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(*a++).~T (); |
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} |
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template<class I> |
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static void cop_new (iterator a, I b) { new (a) T (*b); } |
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template<class I> |
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static void cop_set (iterator a, I b) { *a = *b ; } |
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// MUST copy forwards |
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template<class I> |
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static void copy (iterator dst, I src, size_type n, void (*op)(iterator, I)) |
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{ |
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while (n--) |
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op (dst++, src++); |
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} |
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static void copy (iterator dst, iterator src, size_type n, void (*op)(iterator, iterator)) |
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{ |
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if (is_simple_enough ()) |
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memcpy (dst, src, sizeof (T) * n); |
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else |
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copy<iterator> (dst, src, n, op); |
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} |
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static T *alloc (size_type n) ecb_cold |
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{ |
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return (T *)::operator new ((size_t) (sizeof (T) * n)); |
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} |
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void dealloc () ecb_cold |
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{ |
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destruct (buf, sze); |
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::operator delete (buf); |
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} |
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size_type good_size (size_type n) ecb_cold |
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{ |
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return n ? 2UL << ecb_ld32 (n) : 5; |
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} |
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void ins (iterator where, size_type n) |
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{ |
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size_type pos = where - begin (); |
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if (ecb_expect_false (sze + n > res)) |
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{ |
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res = good_size (sze + n); |
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T *nbuf = alloc (res); |
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copy (nbuf, buf, sze, cop_new); |
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dealloc (); |
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buf = nbuf; |
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} |
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construct (buf + sze, n); |
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iterator src = buf + pos; |
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if (is_simple_enough ()) |
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memmove (src + n, src, sizeof (T) * (sze - pos)); |
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else |
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for (size_type i = sze - pos; i--; ) |
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cop_set (src + n + i, src + i); |
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sze += n; |
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} |
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public: |
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size_type capacity () const { return res; } |
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size_type size () const { return sze; } |
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bool empty () const { return size () == 0; } |
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size_t max_size () const |
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{ |
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return (~(size_type)0) >> 1; |
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} |
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const_iterator begin () const { return &buf [ 0]; } |
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iterator begin () { return &buf [ 0]; } |
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const_iterator end () const { return &buf [sze ]; } |
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iterator end () { return &buf [sze ]; } |
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const_reference front () const { return buf [ 0]; } |
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reference front () { return buf [ 0]; } |
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const_reference back () const { return buf [sze - 1]; } |
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reference back () { return buf [sze - 1]; } |
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void reserve (size_type sz) |
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{ |
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if (ecb_expect_true (sz <= res)) |
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return; |
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sz = good_size (sz); |
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T *nbuf = alloc (sz); |
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copy (nbuf, begin (), sze, cop_new); |
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dealloc (); |
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buf = nbuf; |
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res = sz; |
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} |
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void resize (size_type sz) |
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{ |
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reserve (sz); |
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if (is_simple_enough ()) |
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sze = sz; |
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else |
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{ |
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while (sze < sz) construct (buf + sze++); |
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while (sze > sz) destruct (buf + --sze); |
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} |
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} |
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simplevec () |
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: sze(0), res(0), buf(0) |
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{ |
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} |
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simplevec (size_type n, const T &t = T ()) |
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{ |
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sze = res = n; |
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buf = alloc (sze); |
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while (n--) |
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new (buf + n) T (t); |
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} |
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simplevec (const_iterator first, const_iterator last) |
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{ |
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sze = res = last - first; |
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buf = alloc (sze); |
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copy (buf, first, sze, cop_new); |
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} |
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simplevec (const simplevec<T> &v) |
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: sze(0), res(0), buf(0) |
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{ |
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sze = res = v.size (); |
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buf = alloc (sze); |
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copy (buf, v.begin (), sze, cop_new); |
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} |
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~simplevec () |
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{ |
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dealloc (); |
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} |
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void swap (simplevec<T> &t) |
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{ |
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::swap (sze, t.sze); |
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::swap (res, t.res); |
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::swap (buf, t.buf); |
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} |
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void clear () |
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{ |
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destruct (buf, sze); |
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sze = 0; |
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} |
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void push_back (const T &t) |
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{ |
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reserve (sze + 1); |
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new (buf + sze++) T (t); |
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} |
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void pop_back () |
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{ |
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destruct (buf + --sze); |
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} |
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const_reference operator [](size_type idx) const { return buf[idx]; } |
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reference operator [](size_type idx) { return buf[idx]; } |
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const_reference at (size_type idx) const { return buf [idx]; } |
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reference at (size_type idx) { return buf [idx]; } |
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void assign (const_iterator first, const_iterator last) |
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{ |
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simplevec<T> v (first, last); |
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swap (v); |
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} |
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void assign (size_type n, const T &t) |
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{ |
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simplevec<T> v (n, t); |
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swap (v); |
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} |
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simplevec<T> &operator= (const simplevec<T> &v) |
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{ |
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assign (v.begin (), v.end ()); |
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return *this; |
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} |
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iterator insert (iterator pos, const T &t) |
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{ |
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size_type at = pos - begin (); |
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ins (pos, 1); |
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buf [at] = t; |
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return buf + at; |
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} |
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iterator insert (iterator pos, const_iterator first, const_iterator last) |
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{ |
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size_type n = last - first; |
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size_type at = pos - begin (); |
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ins (pos, n); |
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copy (buf + at, first, n, cop_set); |
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return buf + at; |
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} |
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iterator insert (iterator pos, size_type n, const T &t) |
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{ |
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size_type at = pos - begin (); |
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ins (pos, n); |
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for (iterator i = buf + at; n--; ) |
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*i++ = t; |
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return buf + at; |
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} |
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iterator erase (iterator first, iterator last) |
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{ |
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size_type n = last - first; |
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size_type c = end () - last; |
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if (is_simple_enough ()) |
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memmove (first, last, sizeof (T) * c); |
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else |
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copy (first, last, c, cop_set); |
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sze -= n; |
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destruct (buf + sze, n); |
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return first; |
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} |
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iterator erase (iterator pos) |
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{ |
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if (pos != end ()) |
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erase (pos, pos + 1); |
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return pos; |
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} |
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}; |
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template<class T> |
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bool operator ==(const simplevec<T> &v1, const simplevec<T> &v2) |
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{ |
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if (v1.size () != v2.size ()) return false; |
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return !v1.size () || !memcmp (&v1[0], &v2[0], v1.size () * sizeof (T)); |
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} |
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template<class T> |
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bool operator <(const simplevec<T> &v1, const simplevec<T> &v2) |
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{ |
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unsigned long minlast = min (v1.size (), v2.size ()); |
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for (unsigned long i = 0; i < minlast; ++i) |
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{ |
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if (v1[i] < v2[i]) return true; |
430 |
|
|
if (v2[i] < v1[i]) return false; |
431 |
|
|
} |
432 |
|
|
return v1.size () < v2.size (); |
433 |
|
|
} |
434 |
|
|
|
435 |
|
|
template<typename T> |
436 |
|
|
struct vector : simplevec<T> |
437 |
|
|
{ |
438 |
|
|
}; |
439 |
|
|
|
440 |
|
|
#endif |
441 |
|
|
|