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pugixml.cpp
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pugixml.cpp
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/**
* pugixml parser - version 1.11
* --------------------------------------------------------
* Copyright (C) 2006-2020, by Arseny Kapoulkine ([email protected])
* Report bugs and download new versions at https://pugixml.org/
*
* This library is distributed under the MIT License. See notice at the end
* of this file.
*
* This work is based on the pugxml parser, which is:
* Copyright (C) 2003, by Kristen Wegner ([email protected])
*/
#ifndef SOURCE_PUGIXML_CPP
#define SOURCE_PUGIXML_CPP
#include "pugixml.hpp"
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include <limits.h>
#ifdef PUGIXML_WCHAR_MODE
# include <wchar.h>
#endif
#ifndef PUGIXML_NO_XPATH
# include <math.h>
# include <float.h>
#endif
#ifndef PUGIXML_NO_STL
# include <istream>
# include <ostream>
# include <string>
#endif
// For placement new
#include <new>
#ifdef _MSC_VER
# pragma warning(push)
# pragma warning(disable: 4127) // conditional expression is constant
# pragma warning(disable: 4324) // structure was padded due to __declspec(align())
# pragma warning(disable: 4702) // unreachable code
# pragma warning(disable: 4996) // this function or variable may be unsafe
#endif
#if defined(_MSC_VER) && defined(__c2__)
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wdeprecated" // this function or variable may be unsafe
#endif
#ifdef __INTEL_COMPILER
# pragma warning(disable: 177) // function was declared but never referenced
# pragma warning(disable: 279) // controlling expression is constant
# pragma warning(disable: 1478 1786) // function was declared "deprecated"
# pragma warning(disable: 1684) // conversion from pointer to same-sized integral type
#endif
#if defined(__BORLANDC__) && defined(PUGIXML_HEADER_ONLY)
# pragma warn -8080 // symbol is declared but never used; disabling this inside push/pop bracket does not make the warning go away
#endif
#ifdef __BORLANDC__
# pragma option push
# pragma warn -8008 // condition is always false
# pragma warn -8066 // unreachable code
#endif
#ifdef __SNC__
// Using diag_push/diag_pop does not disable the warnings inside templates due to a compiler bug
# pragma diag_suppress=178 // function was declared but never referenced
# pragma diag_suppress=237 // controlling expression is constant
#endif
#ifdef __TI_COMPILER_VERSION__
# pragma diag_suppress 179 // function was declared but never referenced
#endif
// Inlining controls
#if defined(_MSC_VER) && _MSC_VER >= 1300
# define PUGI__NO_INLINE __declspec(noinline)
#elif defined(__GNUC__)
# define PUGI__NO_INLINE __attribute__((noinline))
#else
# define PUGI__NO_INLINE
#endif
// Branch weight controls
#if defined(__GNUC__) && !defined(__c2__)
# define PUGI__UNLIKELY(cond) __builtin_expect(cond, 0)
#else
# define PUGI__UNLIKELY(cond) (cond)
#endif
// Simple static assertion
#define PUGI__STATIC_ASSERT(cond) { static const char condition_failed[(cond) ? 1 : -1] = {0}; (void)condition_failed[0]; }
// Digital Mars C++ bug workaround for passing char loaded from memory via stack
#ifdef __DMC__
# define PUGI__DMC_VOLATILE volatile
#else
# define PUGI__DMC_VOLATILE
#endif
// Integer sanitizer workaround; we only apply this for clang since gcc8 has no_sanitize but not unsigned-integer-overflow and produces "attribute directive ignored" warnings
#if defined(__clang__) && defined(__has_attribute)
# if __has_attribute(no_sanitize)
# define PUGI__UNSIGNED_OVERFLOW __attribute__((no_sanitize("unsigned-integer-overflow")))
# else
# define PUGI__UNSIGNED_OVERFLOW
# endif
#else
# define PUGI__UNSIGNED_OVERFLOW
#endif
// Borland C++ bug workaround for not defining ::memcpy depending on header include order (can't always use std::memcpy because some compilers don't have it at all)
#if defined(__BORLANDC__) && !defined(__MEM_H_USING_LIST)
using std::memcpy;
using std::memmove;
using std::memset;
#endif
// Some MinGW/GCC versions have headers that erroneously omit LLONG_MIN/LLONG_MAX/ULLONG_MAX definitions from limits.h in some configurations
#if defined(PUGIXML_HAS_LONG_LONG) && defined(__GNUC__) && !defined(LLONG_MAX) && !defined(LLONG_MIN) && !defined(ULLONG_MAX)
# define LLONG_MIN (-LLONG_MAX - 1LL)
# define LLONG_MAX __LONG_LONG_MAX__
# define ULLONG_MAX (LLONG_MAX * 2ULL + 1ULL)
#endif
// In some environments MSVC is a compiler but the CRT lacks certain MSVC-specific features
#if defined(_MSC_VER) && !defined(__S3E__)
# define PUGI__MSVC_CRT_VERSION _MSC_VER
#endif
// Not all platforms have snprintf; we define a wrapper that uses snprintf if possible. This only works with buffers with a known size.
#if __cplusplus >= 201103
# define PUGI__SNPRINTF(buf, ...) snprintf(buf, sizeof(buf), __VA_ARGS__)
#elif defined(PUGI__MSVC_CRT_VERSION) && PUGI__MSVC_CRT_VERSION >= 1400
# define PUGI__SNPRINTF(buf, ...) _snprintf_s(buf, _countof(buf), _TRUNCATE, __VA_ARGS__)
#else
# define PUGI__SNPRINTF sprintf
#endif
// We put implementation details into an anonymous namespace in source mode, but have to keep it in non-anonymous namespace in header-only mode to prevent binary bloat.
#ifdef PUGIXML_HEADER_ONLY
# define PUGI__NS_BEGIN namespace pugi { namespace impl {
# define PUGI__NS_END } }
# define PUGI__FN inline
# define PUGI__FN_NO_INLINE inline
#else
# if defined(_MSC_VER) && _MSC_VER < 1300 // MSVC6 seems to have an amusing bug with anonymous namespaces inside namespaces
# define PUGI__NS_BEGIN namespace pugi { namespace impl {
# define PUGI__NS_END } }
# else
# define PUGI__NS_BEGIN namespace pugi { namespace impl { namespace {
# define PUGI__NS_END } } }
# endif
# define PUGI__FN
# define PUGI__FN_NO_INLINE PUGI__NO_INLINE
#endif
// uintptr_t
#if (defined(_MSC_VER) && _MSC_VER < 1600) || (defined(__BORLANDC__) && __BORLANDC__ < 0x561)
namespace pugi
{
# ifndef _UINTPTR_T_DEFINED
typedef size_t uintptr_t;
# endif
typedef unsigned __int8 uint8_t;
typedef unsigned __int16 uint16_t;
typedef unsigned __int32 uint32_t;
}
#else
# include <stdint.h>
#endif
// Memory allocation
PUGI__NS_BEGIN
PUGI__FN void* default_allocate(size_t size)
{
return malloc(size);
}
PUGI__FN void default_deallocate(void* ptr)
{
free(ptr);
}
template <typename T>
struct xml_memory_management_function_storage
{
static allocation_function allocate;
static deallocation_function deallocate;
};
// Global allocation functions are stored in class statics so that in header mode linker deduplicates them
// Without a template<> we'll get multiple definitions of the same static
template <typename T> allocation_function xml_memory_management_function_storage<T>::allocate = default_allocate;
template <typename T> deallocation_function xml_memory_management_function_storage<T>::deallocate = default_deallocate;
typedef xml_memory_management_function_storage<int> xml_memory;
PUGI__NS_END
// String utilities
PUGI__NS_BEGIN
// Get string length
PUGI__FN size_t strlength(const char_t* s)
{
assert(s);
#ifdef PUGIXML_WCHAR_MODE
return wcslen(s);
#else
return strlen(s);
#endif
}
// Compare two strings
PUGI__FN bool strequal(const char_t* src, const char_t* dst)
{
assert(src && dst);
#ifdef PUGIXML_WCHAR_MODE
return wcscmp(src, dst) == 0;
#else
return strcmp(src, dst) == 0;
#endif
}
// Compare lhs with [rhs_begin, rhs_end)
PUGI__FN bool strequalrange(const char_t* lhs, const char_t* rhs, size_t count)
{
for (size_t i = 0; i < count; ++i)
if (lhs[i] != rhs[i])
return false;
return lhs[count] == 0;
}
// Get length of wide string, even if CRT lacks wide character support
PUGI__FN size_t strlength_wide(const wchar_t* s)
{
assert(s);
#ifdef PUGIXML_WCHAR_MODE
return wcslen(s);
#else
const wchar_t* end = s;
while (*end) end++;
return static_cast<size_t>(end - s);
#endif
}
PUGI__NS_END
// auto_ptr-like object for exception recovery
PUGI__NS_BEGIN
template <typename T> struct auto_deleter
{
typedef void (*D)(T*);
T* data;
D deleter;
auto_deleter(T* data_, D deleter_): data(data_), deleter(deleter_)
{
}
~auto_deleter()
{
if (data) deleter(data);
}
T* release()
{
T* result = data;
data = 0;
return result;
}
};
PUGI__NS_END
#ifdef PUGIXML_COMPACT
PUGI__NS_BEGIN
class compact_hash_table
{
public:
compact_hash_table(): _items(0), _capacity(0), _count(0)
{
}
void clear()
{
if (_items)
{
xml_memory::deallocate(_items);
_items = 0;
_capacity = 0;
_count = 0;
}
}
void* find(const void* key)
{
if (_capacity == 0) return 0;
item_t* item = get_item(key);
assert(item);
assert(item->key == key || (item->key == 0 && item->value == 0));
return item->value;
}
void insert(const void* key, void* value)
{
assert(_capacity != 0 && _count < _capacity - _capacity / 4);
item_t* item = get_item(key);
assert(item);
if (item->key == 0)
{
_count++;
item->key = key;
}
item->value = value;
}
bool reserve(size_t extra = 16)
{
if (_count + extra >= _capacity - _capacity / 4)
return rehash(_count + extra);
return true;
}
private:
struct item_t
{
const void* key;
void* value;
};
item_t* _items;
size_t _capacity;
size_t _count;
bool rehash(size_t count);
item_t* get_item(const void* key)
{
assert(key);
assert(_capacity > 0);
size_t hashmod = _capacity - 1;
size_t bucket = hash(key) & hashmod;
for (size_t probe = 0; probe <= hashmod; ++probe)
{
item_t& probe_item = _items[bucket];
if (probe_item.key == key || probe_item.key == 0)
return &probe_item;
// hash collision, quadratic probing
bucket = (bucket + probe + 1) & hashmod;
}
assert(false && "Hash table is full"); // unreachable
return 0;
}
static PUGI__UNSIGNED_OVERFLOW unsigned int hash(const void* key)
{
unsigned int h = static_cast<unsigned int>(reinterpret_cast<uintptr_t>(key) & 0xffffffff);
// MurmurHash3 32-bit finalizer
h ^= h >> 16;
h *= 0x85ebca6bu;
h ^= h >> 13;
h *= 0xc2b2ae35u;
h ^= h >> 16;
return h;
}
};
PUGI__FN_NO_INLINE bool compact_hash_table::rehash(size_t count)
{
size_t capacity = 32;
while (count >= capacity - capacity / 4)
capacity *= 2;
compact_hash_table rt;
rt._capacity = capacity;
rt._items = static_cast<item_t*>(xml_memory::allocate(sizeof(item_t) * capacity));
if (!rt._items)
return false;
memset(rt._items, 0, sizeof(item_t) * capacity);
for (size_t i = 0; i < _capacity; ++i)
if (_items[i].key)
rt.insert(_items[i].key, _items[i].value);
if (_items)
xml_memory::deallocate(_items);
_capacity = capacity;
_items = rt._items;
assert(_count == rt._count);
return true;
}
PUGI__NS_END
#endif
PUGI__NS_BEGIN
#ifdef PUGIXML_COMPACT
static const uintptr_t xml_memory_block_alignment = 4;
#else
static const uintptr_t xml_memory_block_alignment = sizeof(void*);
#endif
// extra metadata bits
static const uintptr_t xml_memory_page_contents_shared_mask = 64;
static const uintptr_t xml_memory_page_name_allocated_mask = 32;
static const uintptr_t xml_memory_page_value_allocated_mask = 16;
static const uintptr_t xml_memory_page_type_mask = 15;
// combined masks for string uniqueness
static const uintptr_t xml_memory_page_name_allocated_or_shared_mask = xml_memory_page_name_allocated_mask | xml_memory_page_contents_shared_mask;
static const uintptr_t xml_memory_page_value_allocated_or_shared_mask = xml_memory_page_value_allocated_mask | xml_memory_page_contents_shared_mask;
#ifdef PUGIXML_COMPACT
#define PUGI__GETHEADER_IMPL(object, page, flags) // unused
#define PUGI__GETPAGE_IMPL(header) (header).get_page()
#else
#define PUGI__GETHEADER_IMPL(object, page, flags) (((reinterpret_cast<char*>(object) - reinterpret_cast<char*>(page)) << 8) | (flags))
// this macro casts pointers through void* to avoid 'cast increases required alignment of target type' warnings
#define PUGI__GETPAGE_IMPL(header) static_cast<impl::xml_memory_page*>(const_cast<void*>(static_cast<const void*>(reinterpret_cast<const char*>(&header) - (header >> 8))))
#endif
#define PUGI__GETPAGE(n) PUGI__GETPAGE_IMPL((n)->header)
#define PUGI__NODETYPE(n) static_cast<xml_node_type>((n)->header & impl::xml_memory_page_type_mask)
struct xml_allocator;
struct xml_memory_page
{
static xml_memory_page* construct(void* memory)
{
xml_memory_page* result = static_cast<xml_memory_page*>(memory);
result->allocator = 0;
result->prev = 0;
result->next = 0;
result->busy_size = 0;
result->freed_size = 0;
#ifdef PUGIXML_COMPACT
result->compact_string_base = 0;
result->compact_shared_parent = 0;
result->compact_page_marker = 0;
#endif
return result;
}
xml_allocator* allocator;
xml_memory_page* prev;
xml_memory_page* next;
size_t busy_size;
size_t freed_size;
#ifdef PUGIXML_COMPACT
char_t* compact_string_base;
void* compact_shared_parent;
uint32_t* compact_page_marker;
#endif
};
static const size_t xml_memory_page_size =
#ifdef PUGIXML_MEMORY_PAGE_SIZE
(PUGIXML_MEMORY_PAGE_SIZE)
#else
32768
#endif
- sizeof(xml_memory_page);
struct xml_memory_string_header
{
uint16_t page_offset; // offset from page->data
uint16_t full_size; // 0 if string occupies whole page
};
struct xml_allocator
{
xml_allocator(xml_memory_page* root): _root(root), _busy_size(root->busy_size)
{
#ifdef PUGIXML_COMPACT
_hash = 0;
#endif
}
xml_memory_page* allocate_page(size_t data_size)
{
size_t size = sizeof(xml_memory_page) + data_size;
// allocate block with some alignment, leaving memory for worst-case padding
void* memory = xml_memory::allocate(size);
if (!memory) return 0;
// prepare page structure
xml_memory_page* page = xml_memory_page::construct(memory);
assert(page);
assert(this == _root->allocator);
page->allocator = this;
return page;
}
static void deallocate_page(xml_memory_page* page)
{
xml_memory::deallocate(page);
}
void* allocate_memory_oob(size_t size, xml_memory_page*& out_page);
void* allocate_memory(size_t size, xml_memory_page*& out_page)
{
if (PUGI__UNLIKELY(_busy_size + size > xml_memory_page_size))
return allocate_memory_oob(size, out_page);
void* buf = reinterpret_cast<char*>(_root) + sizeof(xml_memory_page) + _busy_size;
_busy_size += size;
out_page = _root;
return buf;
}
#ifdef PUGIXML_COMPACT
void* allocate_object(size_t size, xml_memory_page*& out_page)
{
void* result = allocate_memory(size + sizeof(uint32_t), out_page);
if (!result) return 0;
// adjust for marker
ptrdiff_t offset = static_cast<char*>(result) - reinterpret_cast<char*>(out_page->compact_page_marker);
if (PUGI__UNLIKELY(static_cast<uintptr_t>(offset) >= 256 * xml_memory_block_alignment))
{
// insert new marker
uint32_t* marker = static_cast<uint32_t*>(result);
*marker = static_cast<uint32_t>(reinterpret_cast<char*>(marker) - reinterpret_cast<char*>(out_page));
out_page->compact_page_marker = marker;
// since we don't reuse the page space until we reallocate it, we can just pretend that we freed the marker block
// this will make sure deallocate_memory correctly tracks the size
out_page->freed_size += sizeof(uint32_t);
return marker + 1;
}
else
{
// roll back uint32_t part
_busy_size -= sizeof(uint32_t);
return result;
}
}
#else
void* allocate_object(size_t size, xml_memory_page*& out_page)
{
return allocate_memory(size, out_page);
}
#endif
void deallocate_memory(void* ptr, size_t size, xml_memory_page* page)
{
if (page == _root) page->busy_size = _busy_size;
assert(ptr >= reinterpret_cast<char*>(page) + sizeof(xml_memory_page) && ptr < reinterpret_cast<char*>(page) + sizeof(xml_memory_page) + page->busy_size);
(void)!ptr;
page->freed_size += size;
assert(page->freed_size <= page->busy_size);
if (page->freed_size == page->busy_size)
{
if (page->next == 0)
{
assert(_root == page);
// top page freed, just reset sizes
page->busy_size = 0;
page->freed_size = 0;
#ifdef PUGIXML_COMPACT
// reset compact state to maximize efficiency
page->compact_string_base = 0;
page->compact_shared_parent = 0;
page->compact_page_marker = 0;
#endif
_busy_size = 0;
}
else
{
assert(_root != page);
assert(page->prev);
// remove from the list
page->prev->next = page->next;
page->next->prev = page->prev;
// deallocate
deallocate_page(page);
}
}
}
char_t* allocate_string(size_t length)
{
static const size_t max_encoded_offset = (1 << 16) * xml_memory_block_alignment;
PUGI__STATIC_ASSERT(xml_memory_page_size <= max_encoded_offset);
// allocate memory for string and header block
size_t size = sizeof(xml_memory_string_header) + length * sizeof(char_t);
// round size up to block alignment boundary
size_t full_size = (size + (xml_memory_block_alignment - 1)) & ~(xml_memory_block_alignment - 1);
xml_memory_page* page;
xml_memory_string_header* header = static_cast<xml_memory_string_header*>(allocate_memory(full_size, page));
if (!header) return 0;
// setup header
ptrdiff_t page_offset = reinterpret_cast<char*>(header) - reinterpret_cast<char*>(page) - sizeof(xml_memory_page);
assert(page_offset % xml_memory_block_alignment == 0);
assert(page_offset >= 0 && static_cast<size_t>(page_offset) < max_encoded_offset);
header->page_offset = static_cast<uint16_t>(static_cast<size_t>(page_offset) / xml_memory_block_alignment);
// full_size == 0 for large strings that occupy the whole page
assert(full_size % xml_memory_block_alignment == 0);
assert(full_size < max_encoded_offset || (page->busy_size == full_size && page_offset == 0));
header->full_size = static_cast<uint16_t>(full_size < max_encoded_offset ? full_size / xml_memory_block_alignment : 0);
// round-trip through void* to avoid 'cast increases required alignment of target type' warning
// header is guaranteed a pointer-sized alignment, which should be enough for char_t
return static_cast<char_t*>(static_cast<void*>(header + 1));
}
void deallocate_string(char_t* string)
{
// this function casts pointers through void* to avoid 'cast increases required alignment of target type' warnings
// we're guaranteed the proper (pointer-sized) alignment on the input string if it was allocated via allocate_string
// get header
xml_memory_string_header* header = static_cast<xml_memory_string_header*>(static_cast<void*>(string)) - 1;
assert(header);
// deallocate
size_t page_offset = sizeof(xml_memory_page) + header->page_offset * xml_memory_block_alignment;
xml_memory_page* page = reinterpret_cast<xml_memory_page*>(static_cast<void*>(reinterpret_cast<char*>(header) - page_offset));
// if full_size == 0 then this string occupies the whole page
size_t full_size = header->full_size == 0 ? page->busy_size : header->full_size * xml_memory_block_alignment;
deallocate_memory(header, full_size, page);
}
bool reserve()
{
#ifdef PUGIXML_COMPACT
return _hash->reserve();
#else
return true;
#endif
}
xml_memory_page* _root;
size_t _busy_size;
#ifdef PUGIXML_COMPACT
compact_hash_table* _hash;
#endif
};
PUGI__FN_NO_INLINE void* xml_allocator::allocate_memory_oob(size_t size, xml_memory_page*& out_page)
{
const size_t large_allocation_threshold = xml_memory_page_size / 4;
xml_memory_page* page = allocate_page(size <= large_allocation_threshold ? xml_memory_page_size : size);
out_page = page;
if (!page) return 0;
if (size <= large_allocation_threshold)
{
_root->busy_size = _busy_size;
// insert page at the end of linked list
page->prev = _root;
_root->next = page;
_root = page;
_busy_size = size;
}
else
{
// insert page before the end of linked list, so that it is deleted as soon as possible
// the last page is not deleted even if it's empty (see deallocate_memory)
assert(_root->prev);
page->prev = _root->prev;
page->next = _root;
_root->prev->next = page;
_root->prev = page;
page->busy_size = size;
}
return reinterpret_cast<char*>(page) + sizeof(xml_memory_page);
}
PUGI__NS_END
#ifdef PUGIXML_COMPACT
PUGI__NS_BEGIN
static const uintptr_t compact_alignment_log2 = 2;
static const uintptr_t compact_alignment = 1 << compact_alignment_log2;
class compact_header
{
public:
compact_header(xml_memory_page* page, unsigned int flags)
{
PUGI__STATIC_ASSERT(xml_memory_block_alignment == compact_alignment);
ptrdiff_t offset = (reinterpret_cast<char*>(this) - reinterpret_cast<char*>(page->compact_page_marker));
assert(offset % compact_alignment == 0 && static_cast<uintptr_t>(offset) < 256 * compact_alignment);
_page = static_cast<unsigned char>(offset >> compact_alignment_log2);
_flags = static_cast<unsigned char>(flags);
}
void operator&=(uintptr_t mod)
{
_flags &= static_cast<unsigned char>(mod);
}
void operator|=(uintptr_t mod)
{
_flags |= static_cast<unsigned char>(mod);
}
uintptr_t operator&(uintptr_t mod) const
{
return _flags & mod;
}
xml_memory_page* get_page() const
{
// round-trip through void* to silence 'cast increases required alignment of target type' warnings
const char* page_marker = reinterpret_cast<const char*>(this) - (_page << compact_alignment_log2);
const char* page = page_marker - *reinterpret_cast<const uint32_t*>(static_cast<const void*>(page_marker));
return const_cast<xml_memory_page*>(reinterpret_cast<const xml_memory_page*>(static_cast<const void*>(page)));
}
private:
unsigned char _page;
unsigned char _flags;
};
PUGI__FN xml_memory_page* compact_get_page(const void* object, int header_offset)
{
const compact_header* header = reinterpret_cast<const compact_header*>(static_cast<const char*>(object) - header_offset);
return header->get_page();
}
template <int header_offset, typename T> PUGI__FN_NO_INLINE T* compact_get_value(const void* object)
{
return static_cast<T*>(compact_get_page(object, header_offset)->allocator->_hash->find(object));
}
template <int header_offset, typename T> PUGI__FN_NO_INLINE void compact_set_value(const void* object, T* value)
{
compact_get_page(object, header_offset)->allocator->_hash->insert(object, value);
}
template <typename T, int header_offset, int start = -126> class compact_pointer
{
public:
compact_pointer(): _data(0)
{
}
void operator=(const compact_pointer& rhs)
{
*this = rhs + 0;
}
void operator=(T* value)
{
if (value)
{
// value is guaranteed to be compact-aligned; 'this' is not
// our decoding is based on 'this' aligned to compact alignment downwards (see operator T*)
// so for negative offsets (e.g. -3) we need to adjust the diff by compact_alignment - 1 to
// compensate for arithmetic shift rounding for negative values
ptrdiff_t diff = reinterpret_cast<char*>(value) - reinterpret_cast<char*>(this);
ptrdiff_t offset = ((diff + int(compact_alignment - 1)) >> compact_alignment_log2) - start;
if (static_cast<uintptr_t>(offset) <= 253)
_data = static_cast<unsigned char>(offset + 1);
else
{
compact_set_value<header_offset>(this, value);
_data = 255;
}
}
else
_data = 0;
}
operator T*() const
{
if (_data)
{
if (_data < 255)
{
uintptr_t base = reinterpret_cast<uintptr_t>(this) & ~(compact_alignment - 1);
return reinterpret_cast<T*>(base + (_data - 1 + start) * compact_alignment);
}
else
return compact_get_value<header_offset, T>(this);
}
else
return 0;
}
T* operator->() const
{
return *this;
}
private:
unsigned char _data;
};
template <typename T, int header_offset> class compact_pointer_parent
{
public:
compact_pointer_parent(): _data(0)
{
}
void operator=(const compact_pointer_parent& rhs)
{
*this = rhs + 0;
}
void operator=(T* value)
{
if (value)
{
// value is guaranteed to be compact-aligned; 'this' is not
// our decoding is based on 'this' aligned to compact alignment downwards (see operator T*)
// so for negative offsets (e.g. -3) we need to adjust the diff by compact_alignment - 1 to
// compensate for arithmetic shift behavior for negative values
ptrdiff_t diff = reinterpret_cast<char*>(value) - reinterpret_cast<char*>(this);
ptrdiff_t offset = ((diff + int(compact_alignment - 1)) >> compact_alignment_log2) + 65533;
if (static_cast<uintptr_t>(offset) <= 65533)
{
_data = static_cast<unsigned short>(offset + 1);
}
else
{
xml_memory_page* page = compact_get_page(this, header_offset);
if (PUGI__UNLIKELY(page->compact_shared_parent == 0))
page->compact_shared_parent = value;
if (page->compact_shared_parent == value)
{
_data = 65534;
}
else
{
compact_set_value<header_offset>(this, value);
_data = 65535;
}
}
}
else
{
_data = 0;
}
}
operator T*() const
{
if (_data)
{
if (_data < 65534)
{
uintptr_t base = reinterpret_cast<uintptr_t>(this) & ~(compact_alignment - 1);
return reinterpret_cast<T*>(base + (_data - 1 - 65533) * compact_alignment);
}
else if (_data == 65534)
return static_cast<T*>(compact_get_page(this, header_offset)->compact_shared_parent);
else
return compact_get_value<header_offset, T>(this);
}
else
return 0;
}
T* operator->() const
{
return *this;
}
private:
uint16_t _data;
};
template <int header_offset, int base_offset> class compact_string
{
public:
compact_string(): _data(0)
{
}
void operator=(const compact_string& rhs)
{
*this = rhs + 0;
}
void operator=(char_t* value)
{
if (value)
{
xml_memory_page* page = compact_get_page(this, header_offset);
if (PUGI__UNLIKELY(page->compact_string_base == 0))
page->compact_string_base = value;
ptrdiff_t offset = value - page->compact_string_base;
if (static_cast<uintptr_t>(offset) < (65535 << 7))
{
// round-trip through void* to silence 'cast increases required alignment of target type' warnings
uint16_t* base = reinterpret_cast<uint16_t*>(static_cast<void*>(reinterpret_cast<char*>(this) - base_offset));
if (*base == 0)
{
*base = static_cast<uint16_t>((offset >> 7) + 1);
_data = static_cast<unsigned char>((offset & 127) + 1);
}
else
{
ptrdiff_t remainder = offset - ((*base - 1) << 7);
if (static_cast<uintptr_t>(remainder) <= 253)
{
_data = static_cast<unsigned char>(remainder + 1);
}
else
{
compact_set_value<header_offset>(this, value);
_data = 255;
}