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https://github.com/Relintai/pandemonium_engine.git
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3354a27a59
(cherry picked from commit 4635f243226776ea6b7e5050516deb5e0e909385)
366 lines
13 KiB
C++
366 lines
13 KiB
C++
#ifndef RECASTALLOC_H
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#define RECASTALLOC_H
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//
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// Copyright (c) 2009-2010 Mikko Mononen memon@inside.org
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//
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// This software is provided 'as-is', without any express or implied
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// warranty. In no event will the authors be held liable for any damages
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// arising from the use of this software.
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// Permission is granted to anyone to use this software for any purpose,
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// including commercial applications, and to alter it and redistribute it
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// freely, subject to the following restrictions:
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// 1. The origin of this software must not be misrepresented; you must not
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// claim that you wrote the original software. If you use this software
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// in a product, an acknowledgment in the product documentation would be
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// appreciated but is not required.
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// 2. Altered source versions must be plainly marked as such, and must not be
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// misrepresented as being the original software.
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// 3. This notice may not be removed or altered from any source distribution.
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//
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#include <stddef.h>
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#include <stdint.h>
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#include "RecastAssert.h"
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/// Provides hint values to the memory allocator on how long the
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/// memory is expected to be used.
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enum rcAllocHint
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{
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RC_ALLOC_PERM, ///< Memory will persist after a function call.
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RC_ALLOC_TEMP ///< Memory used temporarily within a function.
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};
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/// A memory allocation function.
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// @param[in] size The size, in bytes of memory, to allocate.
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// @param[in] rcAllocHint A hint to the allocator on how long the memory is expected to be in use.
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// @return A pointer to the beginning of the allocated memory block, or null if the allocation failed.
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/// @see rcAllocSetCustom
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typedef void* (rcAllocFunc)(size_t size, rcAllocHint hint);
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/// A memory deallocation function.
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/// @param[in] ptr A pointer to a memory block previously allocated using #rcAllocFunc.
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/// @see rcAllocSetCustom
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typedef void (rcFreeFunc)(void* ptr);
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/// Sets the base custom allocation functions to be used by Recast.
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/// @param[in] allocFunc The memory allocation function to be used by #rcAlloc
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/// @param[in] freeFunc The memory de-allocation function to be used by #rcFree
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void rcAllocSetCustom(rcAllocFunc *allocFunc, rcFreeFunc *freeFunc);
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/// Allocates a memory block.
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/// @param[in] size The size, in bytes of memory, to allocate.
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/// @param[in] hint A hint to the allocator on how long the memory is expected to be in use.
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/// @return A pointer to the beginning of the allocated memory block, or null if the allocation failed.
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/// @see rcFree
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void* rcAlloc(size_t size, rcAllocHint hint);
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/// Deallocates a memory block.
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/// @param[in] ptr A pointer to a memory block previously allocated using #rcAlloc.
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/// @see rcAlloc
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void rcFree(void* ptr);
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/// An implementation of operator new usable for placement new. The default one is part of STL (which we don't use).
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/// rcNewTag is a dummy type used to differentiate our operator from the STL one, in case users import both Recast
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/// and STL.
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struct rcNewTag {};
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inline void* operator new(size_t, const rcNewTag&, void* p) { return p; }
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inline void operator delete(void*, const rcNewTag&, void*) {}
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/// Signed to avoid warnnings when comparing to int loop indexes, and common error with comparing to zero.
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/// MSVC2010 has a bug where ssize_t is unsigned (!!!).
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typedef intptr_t rcSizeType;
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#define RC_SIZE_MAX INTPTR_MAX
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/// Macros to hint to the compiler about the likeliest branch. Please add a benchmark that demonstrates a performance
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/// improvement before introducing use cases.
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#if defined(__GNUC__) || defined(__clang__)
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#define rcLikely(x) __builtin_expect((x), true)
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#define rcUnlikely(x) __builtin_expect((x), false)
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#else
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#define rcLikely(x) (x)
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#define rcUnlikely(x) (x)
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#endif
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/// Variable-sized storage type. Mimics the interface of std::vector<T> with some notable differences:
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/// * Uses rcAlloc()/rcFree() to handle storage.
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/// * No support for a custom allocator.
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/// * Uses signed size instead of size_t to avoid warnings in for loops: "for (int i = 0; i < foo.size(); i++)"
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/// * Omits methods of limited utility: insert/erase, (bad performance), at (we don't use exceptions), operator=.
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/// * assign() and the pre-sizing constructor follow C++11 semantics -- they don't construct a temporary if no value is provided.
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/// * push_back() and resize() support adding values from the current vector. Range-based constructors and assign(begin, end) do not.
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/// * No specialization for bool.
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template <typename T, rcAllocHint H>
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class rcVectorBase {
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rcSizeType m_size;
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rcSizeType m_cap;
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T* m_data;
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// Constructs a T at the give address with either the copy constructor or the default.
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static void construct(T* p, const T& v) { ::new(rcNewTag(), (void*)p) T(v); }
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static void construct(T* p) { ::new(rcNewTag(), (void*)p) T; }
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static void construct_range(T* begin, T* end);
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static void construct_range(T* begin, T* end, const T& value);
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static void copy_range(T* dst, const T* begin, const T* end);
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void destroy_range(rcSizeType begin, rcSizeType end);
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// Creates an array of the given size, copies all of this vector's data into it, and returns it.
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T* allocate_and_copy(rcSizeType size);
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void resize_impl(rcSizeType size, const T* value);
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// Requires: min_capacity > m_cap.
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rcSizeType get_new_capacity(rcSizeType min_capacity);
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public:
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typedef rcSizeType size_type;
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typedef T value_type;
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rcVectorBase() : m_size(0), m_cap(0), m_data(0) {};
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rcVectorBase(const rcVectorBase<T, H>& other) : m_size(0), m_cap(0), m_data(0) { assign(other.begin(), other.end()); }
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explicit rcVectorBase(rcSizeType count) : m_size(0), m_cap(0), m_data(0) { resize(count); }
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rcVectorBase(rcSizeType count, const T& value) : m_size(0), m_cap(0), m_data(0) { resize(count, value); }
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rcVectorBase(const T* begin, const T* end) : m_size(0), m_cap(0), m_data(0) { assign(begin, end); }
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~rcVectorBase() { destroy_range(0, m_size); rcFree(m_data); }
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// Unlike in std::vector, we return a bool to indicate whether the alloc was successful.
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bool reserve(rcSizeType size);
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void assign(rcSizeType count, const T& value) { clear(); resize(count, value); }
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void assign(const T* begin, const T* end);
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void resize(rcSizeType size) { resize_impl(size, NULL); }
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void resize(rcSizeType size, const T& value) { resize_impl(size, &value); }
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// Not implemented as resize(0) because resize requires T to be default-constructible.
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void clear() { destroy_range(0, m_size); m_size = 0; }
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void push_back(const T& value);
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void pop_back() { rcAssert(m_size > 0); back().~T(); m_size--; }
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rcSizeType size() const { return m_size; }
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rcSizeType capacity() const { return m_cap; }
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bool empty() const { return size() == 0; }
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const T& operator[](rcSizeType i) const { rcAssert(i >= 0 && i < m_size); return m_data[i]; }
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T& operator[](rcSizeType i) { rcAssert(i >= 0 && i < m_size); return m_data[i]; }
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const T& front() const { rcAssert(m_size); return m_data[0]; }
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T& front() { rcAssert(m_size); return m_data[0]; }
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const T& back() const { rcAssert(m_size); return m_data[m_size - 1]; };
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T& back() { rcAssert(m_size); return m_data[m_size - 1]; };
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const T* data() const { return m_data; }
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T* data() { return m_data; }
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T* begin() { return m_data; }
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T* end() { return m_data + m_size; }
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const T* begin() const { return m_data; }
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const T* end() const { return m_data + m_size; }
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void swap(rcVectorBase<T, H>& other);
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// Explicitly deleted.
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rcVectorBase& operator=(const rcVectorBase<T, H>& other);
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};
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template<typename T, rcAllocHint H>
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bool rcVectorBase<T, H>::reserve(rcSizeType count) {
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if (count <= m_cap) {
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return true;
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}
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T* new_data = allocate_and_copy(count);
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if (!new_data) {
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return false;
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}
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destroy_range(0, m_size);
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rcFree(m_data);
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m_data = new_data;
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m_cap = count;
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return true;
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}
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template <typename T, rcAllocHint H>
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T* rcVectorBase<T, H>::allocate_and_copy(rcSizeType size) {
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rcAssert(RC_SIZE_MAX / static_cast<rcSizeType>(sizeof(T)) >= size);
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T* new_data = static_cast<T*>(rcAlloc(sizeof(T) * size, H));
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if (new_data) {
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copy_range(new_data, m_data, m_data + m_size);
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}
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return new_data;
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}
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template <typename T, rcAllocHint H>
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void rcVectorBase<T, H>::assign(const T* begin, const T* end) {
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clear();
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reserve(end - begin);
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m_size = end - begin;
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copy_range(m_data, begin, end);
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}
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template <typename T, rcAllocHint H>
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void rcVectorBase<T, H>::push_back(const T& value) {
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// rcLikely increases performance by ~50% on BM_rcVector_PushPreallocated,
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// and by ~2-5% on BM_rcVector_Push.
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if (rcLikely(m_size < m_cap)) {
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construct(m_data + m_size++, value);
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return;
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}
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const rcSizeType new_cap = get_new_capacity(m_cap + 1);
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T* data = allocate_and_copy(new_cap);
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// construct between allocate and destroy+free in case value is
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// in this vector.
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construct(data + m_size, value);
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destroy_range(0, m_size);
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m_size++;
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m_cap = new_cap;
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rcFree(m_data);
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m_data = data;
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}
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template <typename T, rcAllocHint H>
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rcSizeType rcVectorBase<T, H>::get_new_capacity(rcSizeType min_capacity) {
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rcAssert(min_capacity <= RC_SIZE_MAX);
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if (rcUnlikely(m_cap >= RC_SIZE_MAX / 2))
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return RC_SIZE_MAX;
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return 2 * m_cap > min_capacity ? 2 * m_cap : min_capacity;
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}
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template <typename T, rcAllocHint H>
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void rcVectorBase<T, H>::resize_impl(rcSizeType size, const T* value) {
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if (size < m_size) {
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destroy_range(size, m_size);
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m_size = size;
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} else if (size > m_size) {
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if (size <= m_cap) {
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if (value) {
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construct_range(m_data + m_size, m_data + size, *value);
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} else {
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construct_range(m_data + m_size, m_data + size);
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}
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m_size = size;
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} else {
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const rcSizeType new_cap = get_new_capacity(size);
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T* new_data = allocate_and_copy(new_cap);
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// We defer deconstructing/freeing old data until after constructing
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// new elements in case "value" is there.
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if (value) {
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construct_range(new_data + m_size, new_data + size, *value);
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} else {
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construct_range(new_data + m_size, new_data + size);
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}
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destroy_range(0, m_size);
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rcFree(m_data);
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m_data = new_data;
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m_cap = new_cap;
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m_size = size;
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}
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}
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}
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template <typename T, rcAllocHint H>
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void rcVectorBase<T, H>::swap(rcVectorBase<T, H>& other) {
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// TODO: Reorganize headers so we can use rcSwap here.
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rcSizeType tmp_cap = other.m_cap;
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rcSizeType tmp_size = other.m_size;
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T* tmp_data = other.m_data;
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other.m_cap = m_cap;
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other.m_size = m_size;
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other.m_data = m_data;
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m_cap = tmp_cap;
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m_size = tmp_size;
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m_data = tmp_data;
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}
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// static
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template <typename T, rcAllocHint H>
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void rcVectorBase<T, H>::construct_range(T* begin, T* end) {
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for (T* p = begin; p < end; p++) {
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construct(p);
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}
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}
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// static
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template <typename T, rcAllocHint H>
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void rcVectorBase<T, H>::construct_range(T* begin, T* end, const T& value) {
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for (T* p = begin; p < end; p++) {
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construct(p, value);
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}
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}
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// static
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template <typename T, rcAllocHint H>
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void rcVectorBase<T, H>::copy_range(T* dst, const T* begin, const T* end) {
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for (rcSizeType i = 0 ; i < end - begin; i++) {
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construct(dst + i, begin[i]);
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}
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}
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template <typename T, rcAllocHint H>
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void rcVectorBase<T, H>::destroy_range(rcSizeType begin, rcSizeType end) {
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for (rcSizeType i = begin; i < end; i++) {
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m_data[i].~T();
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}
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}
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template <typename T>
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class rcTempVector : public rcVectorBase<T, RC_ALLOC_TEMP> {
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typedef rcVectorBase<T, RC_ALLOC_TEMP> Base;
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public:
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rcTempVector() : Base() {}
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explicit rcTempVector(rcSizeType size) : Base(size) {}
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rcTempVector(rcSizeType size, const T& value) : Base(size, value) {}
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rcTempVector(const rcTempVector<T>& other) : Base(other) {}
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rcTempVector(const T* begin, const T* end) : Base(begin, end) {}
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};
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template <typename T>
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class rcPermVector : public rcVectorBase<T, RC_ALLOC_PERM> {
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typedef rcVectorBase<T, RC_ALLOC_PERM> Base;
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public:
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rcPermVector() : Base() {}
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explicit rcPermVector(rcSizeType size) : Base(size) {}
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rcPermVector(rcSizeType size, const T& value) : Base(size, value) {}
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rcPermVector(const rcPermVector<T>& other) : Base(other) {}
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rcPermVector(const T* begin, const T* end) : Base(begin, end) {}
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};
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/// Legacy class. Prefer rcVector<int>.
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class rcIntArray
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{
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rcTempVector<int> m_impl;
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public:
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rcIntArray() {}
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rcIntArray(int n) : m_impl(n, 0) {}
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void push(int item) { m_impl.push_back(item); }
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void resize(int size) { m_impl.resize(size); }
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void clear() { m_impl.clear(); }
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int pop()
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{
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int v = m_impl.back();
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m_impl.pop_back();
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return v;
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}
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int size() const { return static_cast<int>(m_impl.size()); }
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int& operator[](int index) { return m_impl[index]; }
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int operator[](int index) const { return m_impl[index]; }
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};
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/// A simple helper class used to delete an array when it goes out of scope.
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/// @note This class is rarely if ever used by the end user.
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template<class T> class rcScopedDelete
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{
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T* ptr;
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public:
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/// Constructs an instance with a null pointer.
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inline rcScopedDelete() : ptr(0) {}
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/// Constructs an instance with the specified pointer.
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/// @param[in] p An pointer to an allocated array.
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inline rcScopedDelete(T* p) : ptr(p) {}
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inline ~rcScopedDelete() { rcFree(ptr); }
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/// The root array pointer.
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/// @return The root array pointer.
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inline operator T*() { return ptr; }
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private:
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// Explicitly disabled copy constructor and copy assignment operator.
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rcScopedDelete(const rcScopedDelete&);
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rcScopedDelete& operator=(const rcScopedDelete&);
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};
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#endif
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