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|
// -*- Mode: C++; tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*-
// vim:tabstop=4:shiftwidth=4:expandtab:
/*
* Copyright (C) 2004-2008 Wu Yongwei <adah at users dot sourceforge dot net>
*
* This software is provided 'as-is', without any express or implied
* warranty. In no event will the authors be held liable for any
* damages arising from the use of this software.
*
* Permission is granted to anyone to use this software for any purpose,
* including commercial applications, and to alter it and redistribute
* it freely, subject to the following restrictions:
*
* 1. The origin of this software must not be misrepresented; you must
* not claim that you wrote the original software. If you use this
* software in a product, an acknowledgement in the product
* documentation would be appreciated but is not required.
* 2. Altered source versions must be plainly marked as such, and must
* not be misrepresented as being the original software.
* 3. This notice may not be removed or altered from any source
* distribution.
*
* This file is part of Stones of Nvwa:
* http://sourceforge.net/projects/nvwa
*
* original version changed for ManaPlus
*
* Copyright (C) 2011-2017 The ManaPlus Developers
*/
/**
* @file debug_new.cpp
*
* Implementation of debug versions of new and delete to check leakage.
*
* @version 4.14, 2008/10/20
* @author Wu Yongwei
*
*/
#ifdef ENABLE_MEM_DEBUG
#include <new>
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#ifdef __unix__
#include <alloca.h>
#endif
#ifdef _WIN32
#include <malloc.h>
#endif
#include "debug/fast_mutex.h"
#include "debug/static_assert.h"
#include "localconsts.h"
// #define DUMP_MEM_ADDRESSES 1
#if !_FAST_MUTEX_CHECK_INITIALIZATION && !defined(_NOTHREADS)
#error "_FAST_MUTEX_CHECK_INITIALIZATION not set: check_leaks may not work"
#endif
/**
* @def M_DEBUG_NEW_ALIGNMENT
*
* The alignment requirement of allocated memory blocks. It must be a
* power of two.
*/
#ifndef M_DEBUG_NEW_ALIGNMENT
#define M_DEBUG_NEW_ALIGNMENT 16
#endif
/**
* @def M_DEBUG_NEW_CALLER_ADDRESS
*
* The expression to return the caller address. #print_position will
* later on use this address to print the position information of memory
* operation points.
*/
#ifndef M_DEBUG_NEW_CALLER_ADDRESS
#ifdef __GNUC__
#define M_DEBUG_NEW_CALLER_ADDRESS __builtin_return_address(0)
#else
#define M_DEBUG_NEW_CALLER_ADDRESS NULL
#endif
#endif
/**
* @def M_DEBUG_NEW_ERROR_ACTION
*
* The action to take when an error occurs. The default behaviour is to
* call \e abort, unless \c M_DEBUG_NEW_ERROR_CRASH is defined, in which
* case a segmentation fault will be triggered instead (which can be
* useful on platforms like Windows that do not generate a core dump
* when \e abort is called).
*/
#ifndef M_DEBUG_NEW_ERROR_ACTION
#ifndef M_DEBUG_NEW_ERROR_CRASH
#define M_DEBUG_NEW_ERROR_ACTION abort()
#else
#define M_DEBUG_NEW_ERROR_ACTION do { *((char*)0) = 0; abort(); } while (0)
#endif
#endif
/**
* @def M_DEBUG_NEW_FILENAME_LEN
*
* The length of file name stored if greater than zero. If it is zero,
* only a const char pointer will be stored. Currently the default
* behaviour is to copy the file name, because I found that the exit
* leakage check cannot access the address of the file name sometimes
* (in my case, a core dump will occur when trying to access the file
* name in a shared library after a \c SIGINT). The current default
* value makes the size of new_ptr_list_t 64 on 32-bit platforms.
*/
#ifndef M_DEBUG_NEW_FILENAME_LEN
#define M_DEBUG_NEW_FILENAME_LEN 100
#endif
/**
* @def M_DEBUG_NEW_PROGNAME
*
* The program (executable) name to be set at compile time. It is
* better to assign the full program path to #new_progname in \e main
* (at run time) than to use this (compile-time) macro, but this macro
* serves well as a quick hack. Note also that double quotation marks
* need to be used around the program name, i.e., one should specify a
* command-line option like <code>-DM_DEBUG_NEW_PROGNAME=\"a.out\"</code>
* in \e bash, or <code>-DM_DEBUG_NEW_PROGNAME=\"a.exe\"</code> in the
* Windows command prompt.
*/
#ifndef M_DEBUG_NEW_PROGNAME
#define M_DEBUG_NEW_PROGNAME nullptr
#endif
/**
* @def M_DEBUG_NEW_STD_OPER_NEW
*
* Macro to indicate whether the standard-conformant behaviour of
* <code>operator new</code> is wanted. It is on by default now, but
* the user may set it to \c 0 to revert to the old behaviour.
*/
#ifndef M_DEBUG_NEW_STD_OPER_NEW
#define M_DEBUG_NEW_STD_OPER_NEW 1
#endif
/**
* @def M_DEBUG_NEW_TAILCHECK
*
* Macro to indicate whether a writing-past-end check will be performed.
* Define it to a positive integer as the number of padding bytes at the
* end of a memory block for checking.
*/
#ifndef M_DEBUG_NEW_TAILCHECK
#define M_DEBUG_NEW_TAILCHECK 0
#endif
/**
* @def M_DEBUG_NEW_TAILCHECK_CHAR
*
* Value of the padding bytes at the end of a memory block.
*/
// #ifndef M_DEBUG_NEW_TAILCHECK_CHAR
// #define M_DEBUG_NEW_TAILCHECK_CHAR 0xCC
// #endif
/**
* @def M_DEBUG_NEW_USE_ADDR2LINE
*
* Whether to use \e addr2line to convert a caller address to file/line
* information. Defining it to a non-zero value will enable the
* conversion (automatically done if GCC is detected). Defining it to
* zero will disable the conversion.
*/
#ifndef M_DEBUG_NEW_USE_ADDR2LINE
#ifdef __GNUC__
#define M_DEBUG_NEW_USE_ADDR2LINE 1
#else
#define M_DEBUG_NEW_USE_ADDR2LINE 0
#endif
#endif
#ifdef _MSC_VER
#pragma warning(disable: 4073) // #pragma init_seg(lib) used
#pragma warning(disable: 4290) // C++ exception specification ignored
#pragma init_seg(lib)
#endif
#undef M_DEBUG_NEW_EMULATE_MALLOC
#undef M_DEBUG_NEW_REDEFINE_NEW
/**
* Macro to indicate whether redefinition of \c new is wanted. Here it
* is defined to \c 0 to disable the redefinition of \c new.
*/
#define M_DEBUG_NEW_REDEFINE_NEW 0
#include "debug/debug_new.h"
/**
* Gets the aligned value of memory block size.
*/
#define align(s) \
(((s) + M_DEBUG_NEW_ALIGNMENT - 1) & ~(M_DEBUG_NEW_ALIGNMENT - 1))
/**
* Structure to store the position information where \c new occurs.
*/
struct new_ptr_list_t
{
new_ptr_list_t* next;
new_ptr_list_t* prev;
size_t size;
union
{
#if M_DEBUG_NEW_FILENAME_LEN == 0
const char* file;
#else
char file[M_DEBUG_NEW_FILENAME_LEN];
#endif
void* addr;
};
unsigned line :31;
unsigned is_array :1;
unsigned magic;
unsigned dumped;
};
/**
* Magic number for error detection.
*/
const unsigned MAGIC = 0x4442474E;
/**
* The extra memory allocated by <code>operator new</code>.
*/
const int ALIGNED_LIST_ITEM_SIZE = align(sizeof(new_ptr_list_t));
/**
* List of all new'd pointers.
*/
static new_ptr_list_t new_ptr_list =
{
&new_ptr_list,
&new_ptr_list,
0,
{
#if M_DEBUG_NEW_FILENAME_LEN == 0
NULL
#else
""
#endif
},
0,
0,
MAGIC,
false
};
/**
* The mutex guard to protect simultaneous access to the pointer list.
*/
static fast_mutex new_ptr_lock;
/**
* The mutex guard to protect simultaneous output to #new_output_fp.
*/
static fast_mutex new_output_lock;
/**
* Total memory allocated in bytes.
*/
static size_t total_mem_alloc = 0;
/**
* Flag to control whether #check_leaks will be automatically called on
* program exit.
*/
bool new_autocheck_flag = true;
/**
* Flag to control whether verbose messages are output.
*/
bool new_verbose_flag = false;
/**
* Pointer to the output stream. The default output is \e stderr, and
* one may change it to a user stream if needed (say, #new_verbose_flag
* is \c true and there are a lot of (de)allocations).
*/
FILE* new_output_fp = stderr;
/**
* Pointer to the program name. Its initial value is the macro
* #M_DEBUG_NEW_PROGNAME. You should try to assign the program path to
* it early in your application. Assigning <code>argv[0]</code> to it
* in \e main is one way. If you use \e bash or \e ksh (or similar),
* the following statement is probably what you want:
* `<code>new_progname = getenv("_");</code>'.
*/
const char* new_progname = M_DEBUG_NEW_PROGNAME;
#if M_DEBUG_NEW_USE_ADDR2LINE
/**
* Tries printing the position information from an instruction address.
* This is the version that uses \e addr2line.
*
* @param addr the instruction address to convert and print
* @return \c true if the address is converted successfully (and
* the result is printed); \c false if no useful
* information is got (and nothing is printed)
*/
static bool print_position_from_addr(const void* addr)
{
static const void* last_addr = nullptr;
static char last_info[256] = "";
if (addr == last_addr)
{
if (last_info[0] == '\0')
return false;
fprintf(new_output_fp, "%s", last_info);
return true;
}
if (new_progname)
{
const char addr2line_cmd[] = "addr2line -e ";
#if defined(__CYGWIN__) || defined(_WIN32)
const int exeext_len = 4;
#else
const int exeext_len = 0;
#endif
#if !defined(__CYGWIN__) && defined(__unix__)
const char ignore_err[] = " 2>/dev/null";
#elif defined(__CYGWIN__) || \
(defined(_WIN32) && defined(WINVER) && WINVER >= 0x0500)
const char ignore_err[] = " 2>nul";
#else
const char ignore_err[] = "";
#endif
char* cmd = static_cast<char*>(alloca(strlen(new_progname)
+ exeext_len
+ sizeof addr2line_cmd - 1
+ sizeof ignore_err - 1
+ sizeof(void*) * 2
+ 4 /* SP + "0x" + null */));
strcpy(cmd, addr2line_cmd);
strcpy(cmd + sizeof addr2line_cmd - 1, new_progname);
size_t len = strlen(cmd);
#if defined(__CYGWIN__) || defined(_WIN32)
if (len <= 4 || (strcmp(cmd + len - 4, ".exe") != 0
&& strcmp(cmd + len - 4, ".EXE") != 0))
{
strcpy(cmd + len, ".exe");
len += 4;
}
#endif
sprintf(cmd + len, " %p%s", addr, ignore_err);
FILE* fp = popen(cmd, "r");
if (fp)
{
char buffer[sizeof last_info] = "";
len = 0;
if (fgets(buffer, sizeof buffer, fp))
{
len = strlen(buffer);
if (buffer[len - 1] == '\n')
buffer[--len] = '\0';
}
int res = pclose(fp);
// Display the file/line information only if the command
// is executed successfully and the output points to a
// valid position, but the result will be cached if only
// the command is executed successfully.
if (res == 0 && len > 0)
{
last_addr = addr;
if (buffer[len - 1] == '0' && buffer[len - 2] == ':')
last_info[0] = '\0';
else
{
fprintf(new_output_fp, "%s", buffer);
strcpy(last_info, buffer);
return true;
}
}
}
}
return false;
}
#else
/**
* Tries printing the position information from an instruction address.
* This is the stub version that does nothing at all.
*
* @return \c false always
*/
static bool print_position_from_addr(const void*)
{
return false;
}
#endif // M_DEBUG_NEW_USE_ADDR2LINE
/**
* Prints the position information of a memory operation point. When \c
* M_DEBUG_NEW_USE_ADDR2LINE is defined to a non-zero value, this
* function will try to convert a given caller address to file/line
* information with \e addr2line.
*
* @param ptr source file name if \e line is non-zero; caller address
* otherwise
* @param line source line number if non-zero; indication that \e ptr
* is the caller address otherwise
*/
static void print_position(const void* ptr, int line)
{
if (line != 0) // Is file/line information present?
{
fprintf(new_output_fp, "%s:%d", static_cast<const char*>(ptr), line);
}
else if (ptr != nullptr) // Is caller address present?
{
if (!print_position_from_addr(ptr)) // Fail to get source position?
fprintf(new_output_fp, "%p", ptr);
}
else // No information is present
{
fprintf(new_output_fp, "<Unknown>");
}
}
#if M_DEBUG_NEW_TAILCHECK
/**
* Checks whether the padding bytes at the end of a memory block is
* tampered with.
*
* @param ptr pointer to a new_ptr_list_t struct
* @return \c true if the padding bytes are untouched; \c false
* otherwise
*/
static bool check_tail(new_ptr_list_t* ptr)
{
const unsigned char* const pointer = (unsigned char*)ptr +
ALIGNED_LIST_ITEM_SIZE + ptr->size;
for (int i = 0; i < M_DEBUG_NEW_TAILCHECK; ++i)
{
if (pointer[i] != M_DEBUG_NEW_TAILCHECK_CHAR)
return false;
}
return true;
}
#endif
/**
* Allocates memory and initializes control data.
*
* @param size size of the required memory block
* @param file null-terminated string of the file name
* @param line line number
* @param is_array boolean value whether this is an array operation
* @return pointer to the user-requested memory area; \c NULL
* if memory allocation is not successful
*/
static void* alloc_mem(size_t size, const char* file, int line, bool is_array)
{
assert(line >= 0);
STATIC_ASSERT((M_DEBUG_NEW_ALIGNMENT & (M_DEBUG_NEW_ALIGNMENT - 1)) == 0,
Alignment_must_be_power_of_two);
STATIC_ASSERT(M_DEBUG_NEW_TAILCHECK >= 0, Invalid_tail_check_length);
size_t s = size + ALIGNED_LIST_ITEM_SIZE + M_DEBUG_NEW_TAILCHECK;
new_ptr_list_t* ptr = static_cast<new_ptr_list_t*>(malloc(s));
if (ptr == nullptr)
{
#if M_DEBUG_NEW_STD_OPER_NEW
return nullptr;
#else
fast_mutex_autolock lock(new_output_lock);
fprintf(new_output_fp,
"Out of memory when allocating %u bytes\n",
size);
fflush(new_output_fp);
M_DEBUG_NEW_ERROR_ACTION;
#endif
}
void* pointer = reinterpret_cast<char*>(ptr) + ALIGNED_LIST_ITEM_SIZE;
#if M_DEBUG_NEW_FILENAME_LEN == 0
ptr->file = file;
#else
if (line)
{
strncpy(ptr->file, file, M_DEBUG_NEW_FILENAME_LEN - 1)
[M_DEBUG_NEW_FILENAME_LEN - 1] = '\0';
}
else
{
ptr->addr = reinterpret_cast<void*>(const_cast<char*>(file));
}
#endif
ptr->line = line;
ptr->is_array = is_array;
ptr->size = size;
ptr->magic = MAGIC;
{
fast_mutex_autolock lock(new_ptr_lock);
ptr->prev = new_ptr_list.prev;
ptr->next = &new_ptr_list;
new_ptr_list.prev->next = ptr;
new_ptr_list.prev = ptr;
}
ptr->dumped = 0;
#if M_DEBUG_NEW_TAILCHECK
memset((char*)pointer + size, M_DEBUG_NEW_TAILCHECK_CHAR,
M_DEBUG_NEW_TAILCHECK);
#endif
if (new_verbose_flag)
{
fast_mutex_autolock lock(new_output_lock);
fprintf(new_output_fp,
"new%s: allocated %p (size %u, ",
is_array ? "[]" : "",
pointer, CAST_U32(size));
if (line != 0)
print_position(ptr->file, ptr->line);
else
print_position(ptr->addr, ptr->line);
fprintf(new_output_fp, ")\n");
}
total_mem_alloc += size;
return pointer;
}
/**
* Frees memory and adjusts pointers.
*
* @param pointer pointer to delete
* @param addr pointer to the caller
* @param is_array flag indicating whether it is invoked by a
* <code>delete []</code> call
*/
static void free_pointer(void* pointer, void* addr, bool is_array)
{
if (pointer == nullptr)
return;
new_ptr_list_t* ptr = reinterpret_cast<new_ptr_list_t*>(
static_cast<char*>(pointer) - ALIGNED_LIST_ITEM_SIZE);
if (ptr->magic != MAGIC)
{
{
fast_mutex_autolock lock(new_output_lock);
fprintf(new_output_fp, "delete%s: invalid pointer %p (",
is_array ? "[]" : "", pointer);
print_position(addr, 0);
fprintf(new_output_fp, ")\n");
}
check_mem_corruption();
fflush(new_output_fp);
M_DEBUG_NEW_ERROR_ACTION;
}
if (is_array != ptr->is_array)
{
const char* msg;
if (is_array)
msg = "delete [] after new";
else
msg = "delete after new []";
fast_mutex_autolock lock(new_output_lock);
fprintf(new_output_fp,
"%s: pointer %p (size %u)\n\tat ",
msg,
reinterpret_cast<char*>(ptr) + ALIGNED_LIST_ITEM_SIZE,
CAST_U32(ptr->size));
print_position(addr, 0);
fprintf(new_output_fp, "\n\toriginally allocated at ");
if (ptr->line != 0)
print_position(ptr->file, ptr->line);
else
print_position(ptr->addr, ptr->line);
fprintf(new_output_fp, "\n");
fflush(new_output_fp);
M_DEBUG_NEW_ERROR_ACTION;
}
#if M_DEBUG_NEW_TAILCHECK
if (!check_tail(ptr))
{
check_mem_corruption();
fflush(new_output_fp);
M_DEBUG_NEW_ERROR_ACTION;
}
#endif
{
fast_mutex_autolock lock(new_ptr_lock);
total_mem_alloc -= ptr->size;
ptr->magic = 0;
ptr->prev->next = ptr->next;
ptr->next->prev = ptr->prev;
}
if (new_verbose_flag)
{
fast_mutex_autolock lock(new_output_lock);
fprintf(new_output_fp,
"delete%s: freed %p (size %u, %u bytes still allocated)\n",
is_array ? "[]" : "",
reinterpret_cast<char*>(ptr) + ALIGNED_LIST_ITEM_SIZE,
CAST_U32(ptr->size),
CAST_U32(total_mem_alloc));
}
free(ptr);
return;
}
/**
* Checks for memory leaks.
*
* @return zero if no leakage is found; the number of leaks otherwise
*/
int check_leaks()
{
int leak_cnt = 0;
int dumped_cnt = 0;
int new_cnt = 0;
unsigned long new_size = 0;
fast_mutex_autolock lock_ptr(new_ptr_lock);
fast_mutex_autolock lock_output(new_output_lock);
new_ptr_list_t* ptr = new_ptr_list.next;
fprintf(new_output_fp, "---LEAKS LIST---\n");
while (ptr != &new_ptr_list)
{
const char* const pointer = reinterpret_cast<const char *>(ptr)
+ ALIGNED_LIST_ITEM_SIZE;
if (ptr->magic != MAGIC)
{
fprintf(new_output_fp,
"warning: heap data corrupt near %p\n",
pointer);
}
#if M_DEBUG_NEW_TAILCHECK
if (!check_tail(ptr))
{
fprintf(new_output_fp,
"warning: overwritten past end of object at %p\n",
pointer);
}
#endif
#ifndef DUMP_MEM_ADDRESSES
if (ptr->line != 0)
#endif
{
fprintf(new_output_fp,
"Leaked object at %p (size %u, dump %u, ",
pointer, CAST_U32(ptr->size), ptr->dumped);
if (ptr->line != 0)
print_position(ptr->file, ptr->line);
else
print_position(ptr->addr, ptr->line);
fprintf(new_output_fp, ")\n");
++ new_cnt;
new_size += static_cast<unsigned long>(ptr->size);
}
if (ptr->dumped)
++ dumped_cnt;
++ ptr->dumped;
ptr = ptr->next;
++ leak_cnt;
}
if (new_verbose_flag || leak_cnt)
{
fprintf(new_output_fp, "*** %d leaks found, new %d "
"(size %lu), dumped count %d\n", leak_cnt, new_cnt,
new_size, dumped_cnt);
}
return leak_cnt;
}
/**
* Checks for heap corruption.
*
* @return zero if no problem is found; the number of found memory
* corruptions otherwise
*/
int check_mem_corruption()
{
int corrupt_cnt = 0;
fast_mutex_autolock lock_ptr(new_ptr_lock);
fast_mutex_autolock lock_output(new_output_lock);
fprintf(new_output_fp, "*** Checking for memory corruption: START\n");
for (new_ptr_list_t* ptr = new_ptr_list.next;
ptr != &new_ptr_list;
ptr = ptr->next)
{
const char* const pointer = reinterpret_cast<char*>(ptr)
+ ALIGNED_LIST_ITEM_SIZE;
if (ptr->magic == MAGIC
#if M_DEBUG_NEW_TAILCHECK
&& check_tail(ptr)
#endif
)
{
continue;
}
#if M_DEBUG_NEW_TAILCHECK
if (ptr->magic != MAGIC)
{
#endif
fprintf(new_output_fp,
"Heap data corrupt near %p (size %u, ",
pointer,
CAST_U32(ptr->size));
#if M_DEBUG_NEW_TAILCHECK
}
else
{
fprintf(new_output_fp,
"Overwritten past end of object at %p (size %u, ",
pointer,
ptr->size);
}
#endif
if (ptr->line != 0)
print_position(ptr->file, ptr->line);
else
print_position(ptr->addr, ptr->line);
fprintf(new_output_fp, ")\n");
++ corrupt_cnt;
}
fprintf(new_output_fp, "*** Checking for memory corruption: %d FOUND\n",
corrupt_cnt);
return corrupt_cnt;
}
void __debug_new_recorder::_M_process(void* pointer)
{
if (pointer == nullptr)
return;
new_ptr_list_t* ptr = reinterpret_cast<new_ptr_list_t*>(
static_cast<char*>(pointer) - ALIGNED_LIST_ITEM_SIZE);
if (ptr->magic != MAGIC || ptr->line != 0)
{
fast_mutex_autolock lock(new_output_lock);
fprintf(new_output_fp,
"warning: debug_new used with placement new (%s:%d)\n",
_M_file, _M_line);
return;
}
#if M_DEBUG_NEW_FILENAME_LEN == 0
ptr->file = _M_file;
#else
strncpy(ptr->file, _M_file, M_DEBUG_NEW_FILENAME_LEN - 1)
[M_DEBUG_NEW_FILENAME_LEN - 1] = '\0';
#endif
ptr->line = _M_line;
}
void* operator new (size_t size, const char* file, int line)
{
void* ptr = alloc_mem(size, file, line, false);
#if M_DEBUG_NEW_STD_OPER_NEW
if (ptr)
return ptr;
else
throw std::bad_alloc();
#else
return ptr;
#endif
}
void* operator new [](size_t size, const char* file, int line)
{
void* ptr = alloc_mem(size, file, line, true);
#if M_DEBUG_NEW_STD_OPER_NEW
if (ptr)
return ptr;
else
throw std::bad_alloc();
#else
return ptr;
#endif
}
void* operator new (size_t size) // throw(std::bad_alloc)
{
return operator new (size, static_cast<char*>(
M_DEBUG_NEW_CALLER_ADDRESS), 0);
}
void* operator new [](size_t size) // throw(std::bad_alloc)
{
return operator new [](size, static_cast<char*>(
M_DEBUG_NEW_CALLER_ADDRESS), 0);
}
#if !defined(__BORLANDC__) || __BORLANDC__ > 0x551
void* operator new (size_t size, const std::nothrow_t&) throw()
{
return alloc_mem(size, static_cast<char*>(
M_DEBUG_NEW_CALLER_ADDRESS), 0, false);
}
void* operator new [](size_t size, const std::nothrow_t&) throw()
{
return alloc_mem(size, static_cast<char*>(
M_DEBUG_NEW_CALLER_ADDRESS), 0, true);
}
#endif
void operator delete (void* pointer) throw()
{
free_pointer(pointer, M_DEBUG_NEW_CALLER_ADDRESS, false);
}
void operator delete [](void* pointer) throw()
{
free_pointer(pointer, M_DEBUG_NEW_CALLER_ADDRESS, true);
}
#if HAVE_PLACEMENT_DELETE
void operator delete (void* pointer, const char* file, int line) throw()
{
if (new_verbose_flag)
{
fast_mutex_autolock lock(new_output_lock);
fprintf(new_output_fp,
"info: exception thrown on initializing object at %p (",
pointer);
print_position(file, line);
fprintf(new_output_fp, ")\n");
}
operator delete (pointer);
}
void operator delete [](void* pointer, const char* file, int line) throw()
{
if (new_verbose_flag)
{
fast_mutex_autolock lock(new_output_lock);
fprintf(new_output_fp,
"info: exception thrown on initializing objects at %p (",
pointer);
print_position(file, line);
fprintf(new_output_fp, ")\n");
}
operator delete [](pointer);
}
void operator delete (void* pointer, const std::nothrow_t&) throw()
{
operator delete (pointer, static_cast<char*>(
M_DEBUG_NEW_CALLER_ADDRESS), 0);
}
void operator delete [](void* pointer, const std::nothrow_t&) throw()
{
operator delete [](pointer, static_cast<char*>(
M_DEBUG_NEW_CALLER_ADDRESS), 0);
}
#endif // HAVE_PLACEMENT_DELETE
int __debug_new_counter::_S_count = 0;
/**
* Constructor to increment the count.
*/
__debug_new_counter::__debug_new_counter()
{
++_S_count;
}
/**
* Destructor to decrement the count. When the count is zero,
* #check_leaks will be called.
*/
__debug_new_counter::~__debug_new_counter()
{
if (--_S_count == 0 && new_autocheck_flag)
if (check_leaks())
{
new_verbose_flag = true;
#if defined(__GNUC__) && __GNUC__ >= 3
if (!getenv("GLIBCPP_FORCE_NEW") && !getenv("GLIBCXX_FORCE_NEW"))
fprintf(new_output_fp,
"*** WARNING: GCC 3 or later is detected, please make sure the\n"
" environment variable GLIBCPP_FORCE_NEW (GCC 3.2 and 3.3) or\n"
" GLIBCXX_FORCE_NEW (GCC 3.4 and later) is defined. Check the\n"
" README file for details.\n");
#endif
}
}
#endif
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