forked from OSchip/llvm-project
489 lines
12 KiB
C++
489 lines
12 KiB
C++
//===----------------------------------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#ifndef COUNT_NEW_H
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#define COUNT_NEW_H
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# include <cstdlib>
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# include <cassert>
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# include <new>
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#include "test_macros.h"
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#if defined(TEST_HAS_SANITIZERS)
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#define DISABLE_NEW_COUNT
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#endif
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namespace detail
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{
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TEST_NORETURN
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inline void throw_bad_alloc_helper() {
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#ifndef TEST_HAS_NO_EXCEPTIONS
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throw std::bad_alloc();
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#else
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std::abort();
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#endif
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}
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}
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class MemCounter
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{
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public:
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// Make MemCounter super hard to accidentally construct or copy.
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class MemCounterCtorArg_ {};
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explicit MemCounter(MemCounterCtorArg_) { reset(); }
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private:
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MemCounter(MemCounter const &);
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MemCounter & operator=(MemCounter const &);
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public:
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// All checks return true when disable_checking is enabled.
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static const bool disable_checking;
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// Disallow any allocations from occurring. Useful for testing that
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// code doesn't perform any allocations.
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bool disable_allocations;
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// number of allocations to throw after. Default (unsigned)-1. If
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// throw_after has the default value it will never be decremented.
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static const unsigned never_throw_value = static_cast<unsigned>(-1);
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unsigned throw_after;
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int outstanding_new;
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int new_called;
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int delete_called;
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int aligned_new_called;
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int aligned_delete_called;
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std::size_t last_new_size;
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std::size_t last_new_align;
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std::size_t last_delete_align;
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int outstanding_array_new;
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int new_array_called;
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int delete_array_called;
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int aligned_new_array_called;
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int aligned_delete_array_called;
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std::size_t last_new_array_size;
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std::size_t last_new_array_align;
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std::size_t last_delete_array_align;
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public:
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void newCalled(std::size_t s)
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{
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assert(disable_allocations == false);
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assert(s);
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if (throw_after == 0) {
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throw_after = never_throw_value;
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detail::throw_bad_alloc_helper();
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} else if (throw_after != never_throw_value) {
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--throw_after;
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}
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++new_called;
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++outstanding_new;
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last_new_size = s;
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}
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void alignedNewCalled(std::size_t s, std::size_t a) {
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newCalled(s);
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++aligned_new_called;
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last_new_align = a;
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}
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void deleteCalled(void * p)
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{
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assert(p);
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--outstanding_new;
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++delete_called;
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}
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void alignedDeleteCalled(void *p, std::size_t a) {
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deleteCalled(p);
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++aligned_delete_called;
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last_delete_align = a;
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}
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void newArrayCalled(std::size_t s)
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{
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assert(disable_allocations == false);
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assert(s);
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if (throw_after == 0) {
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throw_after = never_throw_value;
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detail::throw_bad_alloc_helper();
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} else {
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// don't decrement throw_after here. newCalled will end up doing that.
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}
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++outstanding_array_new;
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++new_array_called;
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last_new_array_size = s;
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}
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void alignedNewArrayCalled(std::size_t s, std::size_t a) {
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newArrayCalled(s);
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++aligned_new_array_called;
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last_new_array_align = a;
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}
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void deleteArrayCalled(void * p)
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{
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assert(p);
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--outstanding_array_new;
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++delete_array_called;
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}
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void alignedDeleteArrayCalled(void * p, std::size_t a) {
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deleteArrayCalled(p);
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++aligned_delete_array_called;
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last_delete_array_align = a;
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}
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void disableAllocations()
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{
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disable_allocations = true;
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}
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void enableAllocations()
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{
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disable_allocations = false;
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}
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void reset()
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{
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disable_allocations = false;
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throw_after = never_throw_value;
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outstanding_new = 0;
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new_called = 0;
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delete_called = 0;
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aligned_new_called = 0;
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aligned_delete_called = 0;
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last_new_size = 0;
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last_new_align = 0;
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outstanding_array_new = 0;
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new_array_called = 0;
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delete_array_called = 0;
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aligned_new_array_called = 0;
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aligned_delete_array_called = 0;
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last_new_array_size = 0;
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last_new_array_align = 0;
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}
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public:
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bool checkOutstandingNewEq(int n) const
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{
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return disable_checking || n == outstanding_new;
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}
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bool checkOutstandingNewNotEq(int n) const
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{
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return disable_checking || n != outstanding_new;
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}
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bool checkNewCalledEq(int n) const
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{
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return disable_checking || n == new_called;
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}
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bool checkNewCalledNotEq(int n) const
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{
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return disable_checking || n != new_called;
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}
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bool checkNewCalledGreaterThan(int n) const
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{
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return disable_checking || new_called > n;
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}
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bool checkDeleteCalledEq(int n) const
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{
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return disable_checking || n == delete_called;
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}
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bool checkDeleteCalledNotEq(int n) const
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{
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return disable_checking || n != delete_called;
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}
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bool checkAlignedNewCalledEq(int n) const
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{
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return disable_checking || n == aligned_new_called;
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}
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bool checkAlignedNewCalledNotEq(int n) const
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{
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return disable_checking || n != aligned_new_called;
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}
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bool checkAlignedNewCalledGreaterThan(int n) const
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{
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return disable_checking || aligned_new_called > n;
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}
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bool checkAlignedDeleteCalledEq(int n) const
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{
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return disable_checking || n == aligned_delete_called;
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}
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bool checkAlignedDeleteCalledNotEq(int n) const
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{
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return disable_checking || n != aligned_delete_called;
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}
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bool checkLastNewSizeEq(std::size_t n) const
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{
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return disable_checking || n == last_new_size;
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}
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bool checkLastNewSizeNotEq(std::size_t n) const
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{
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return disable_checking || n != last_new_size;
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}
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bool checkLastNewAlignEq(std::size_t n) const
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{
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return disable_checking || n == last_new_align;
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}
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bool checkLastNewAlignNotEq(std::size_t n) const
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{
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return disable_checking || n != last_new_align;
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}
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bool checkLastDeleteAlignEq(std::size_t n) const
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{
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return disable_checking || n == last_delete_align;
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}
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bool checkLastDeleteAlignNotEq(std::size_t n) const
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{
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return disable_checking || n != last_delete_align;
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}
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bool checkOutstandingArrayNewEq(int n) const
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{
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return disable_checking || n == outstanding_array_new;
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}
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bool checkOutstandingArrayNewNotEq(int n) const
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{
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return disable_checking || n != outstanding_array_new;
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}
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bool checkNewArrayCalledEq(int n) const
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{
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return disable_checking || n == new_array_called;
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}
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bool checkNewArrayCalledNotEq(int n) const
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{
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return disable_checking || n != new_array_called;
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}
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bool checkDeleteArrayCalledEq(int n) const
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{
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return disable_checking || n == delete_array_called;
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}
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bool checkDeleteArrayCalledNotEq(int n) const
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{
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return disable_checking || n != delete_array_called;
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}
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bool checkAlignedNewArrayCalledEq(int n) const
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{
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return disable_checking || n == aligned_new_array_called;
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}
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bool checkAlignedNewArrayCalledNotEq(int n) const
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{
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return disable_checking || n != aligned_new_array_called;
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}
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bool checkAlignedNewArrayCalledGreaterThan(int n) const
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{
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return disable_checking || aligned_new_array_called > n;
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}
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bool checkAlignedDeleteArrayCalledEq(int n) const
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{
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return disable_checking || n == aligned_delete_array_called;
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}
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bool checkAlignedDeleteArrayCalledNotEq(int n) const
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{
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return disable_checking || n != aligned_delete_array_called;
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}
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bool checkLastNewArraySizeEq(std::size_t n) const
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{
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return disable_checking || n == last_new_array_size;
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}
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bool checkLastNewArraySizeNotEq(std::size_t n) const
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{
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return disable_checking || n != last_new_array_size;
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}
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bool checkLastNewArrayAlignEq(std::size_t n) const
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{
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return disable_checking || n == last_new_array_align;
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}
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bool checkLastNewArrayAlignNotEq(std::size_t n) const
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{
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return disable_checking || n != last_new_array_align;
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}
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};
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#ifdef DISABLE_NEW_COUNT
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const bool MemCounter::disable_checking = true;
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#else
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const bool MemCounter::disable_checking = false;
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#endif
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TEST_DIAGNOSTIC_PUSH
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TEST_MSVC_DIAGNOSTIC_IGNORED(4640) // '%s' construction of local static object is not thread safe (/Zc:threadSafeInit-)
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inline MemCounter* getGlobalMemCounter() {
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static MemCounter counter((MemCounter::MemCounterCtorArg_()));
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return &counter;
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}
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TEST_DIAGNOSTIC_POP
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MemCounter &globalMemCounter = *getGlobalMemCounter();
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#ifndef DISABLE_NEW_COUNT
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void* operator new(std::size_t s) TEST_THROW_SPEC(std::bad_alloc)
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{
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getGlobalMemCounter()->newCalled(s);
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void* ret = std::malloc(s);
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if (ret == nullptr)
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detail::throw_bad_alloc_helper();
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return ret;
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}
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void operator delete(void* p) TEST_NOEXCEPT
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{
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getGlobalMemCounter()->deleteCalled(p);
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std::free(p);
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}
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void* operator new[](std::size_t s) TEST_THROW_SPEC(std::bad_alloc)
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{
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getGlobalMemCounter()->newArrayCalled(s);
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return operator new(s);
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}
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void operator delete[](void* p) TEST_NOEXCEPT
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{
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getGlobalMemCounter()->deleteArrayCalled(p);
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operator delete(p);
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}
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#ifndef TEST_HAS_NO_ALIGNED_ALLOCATION
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#if defined(_LIBCPP_MSVCRT_LIKE) || \
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(!defined(_LIBCPP_VERSION) && defined(_WIN32))
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#define USE_ALIGNED_ALLOC
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#endif
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void* operator new(std::size_t s, std::align_val_t av) TEST_THROW_SPEC(std::bad_alloc) {
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const std::size_t a = static_cast<std::size_t>(av);
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getGlobalMemCounter()->alignedNewCalled(s, a);
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void *ret;
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#ifdef USE_ALIGNED_ALLOC
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ret = _aligned_malloc(s, a);
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#else
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posix_memalign(&ret, a, s);
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#endif
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if (ret == nullptr)
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detail::throw_bad_alloc_helper();
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return ret;
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}
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void operator delete(void *p, std::align_val_t av) TEST_NOEXCEPT {
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const std::size_t a = static_cast<std::size_t>(av);
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getGlobalMemCounter()->alignedDeleteCalled(p, a);
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if (p) {
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#ifdef USE_ALIGNED_ALLOC
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::_aligned_free(p);
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#else
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::free(p);
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#endif
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}
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}
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void* operator new[](std::size_t s, std::align_val_t av) TEST_THROW_SPEC(std::bad_alloc) {
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const std::size_t a = static_cast<std::size_t>(av);
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getGlobalMemCounter()->alignedNewArrayCalled(s, a);
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return operator new(s, av);
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}
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void operator delete[](void *p, std::align_val_t av) TEST_NOEXCEPT {
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const std::size_t a = static_cast<std::size_t>(av);
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getGlobalMemCounter()->alignedDeleteArrayCalled(p, a);
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return operator delete(p, av);
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}
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#endif // TEST_HAS_NO_ALIGNED_ALLOCATION
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#endif // DISABLE_NEW_COUNT
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struct DisableAllocationGuard {
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explicit DisableAllocationGuard(bool disable = true) : m_disabled(disable)
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{
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// Don't re-disable if already disabled.
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if (globalMemCounter.disable_allocations == true) m_disabled = false;
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if (m_disabled) globalMemCounter.disableAllocations();
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}
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void release() {
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if (m_disabled) globalMemCounter.enableAllocations();
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m_disabled = false;
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}
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~DisableAllocationGuard() {
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release();
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}
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private:
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bool m_disabled;
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DisableAllocationGuard(DisableAllocationGuard const&);
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DisableAllocationGuard& operator=(DisableAllocationGuard const&);
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};
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struct RequireAllocationGuard {
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explicit RequireAllocationGuard(std::size_t RequireAtLeast = 1)
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: m_req_alloc(RequireAtLeast),
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m_new_count_on_init(globalMemCounter.new_called),
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m_outstanding_new_on_init(globalMemCounter.outstanding_new),
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m_exactly(false)
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{
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}
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void requireAtLeast(std::size_t N) { m_req_alloc = N; m_exactly = false; }
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void requireExactly(std::size_t N) { m_req_alloc = N; m_exactly = true; }
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~RequireAllocationGuard() {
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assert(globalMemCounter.checkOutstandingNewEq(static_cast<int>(m_outstanding_new_on_init)));
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std::size_t Expect = m_new_count_on_init + m_req_alloc;
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assert(globalMemCounter.checkNewCalledEq(static_cast<int>(Expect)) ||
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(!m_exactly && globalMemCounter.checkNewCalledGreaterThan(static_cast<int>(Expect))));
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}
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private:
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std::size_t m_req_alloc;
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const std::size_t m_new_count_on_init;
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const std::size_t m_outstanding_new_on_init;
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bool m_exactly;
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RequireAllocationGuard(RequireAllocationGuard const&);
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RequireAllocationGuard& operator=(RequireAllocationGuard const&);
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};
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#endif /* COUNT_NEW_H */
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