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Merge branch 'dev' into dev-slice

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Daan Leijen 2022-12-19 17:38:53 -08:00
commit 35997c0384
2 changed files with 24 additions and 23 deletions
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33
include/mimalloc.h
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@ -480,12 +480,12 @@ template<class T1,class T2> bool operator!=(const mi_stl_allocator<T1>& , const
#include <memory> // std::shared_ptr
// Common base class for STL allocators in a specific heap
template<class T> struct _mi_heap_stl_allocator_common : public _mi_stl_allocator_common<T> {
template<class T, bool destroy> struct _mi_heap_stl_allocator_common : public _mi_stl_allocator_common<T> {
using typename _mi_stl_allocator_common<T>::size_type;
using typename _mi_stl_allocator_common<T>::value_type;
using typename _mi_stl_allocator_common<T>::pointer;
_mi_heap_stl_allocator_common(mi_heap_t* hp) : heap(hp) { } /* will not delete or destroy the passed in heap */
_mi_heap_stl_allocator_common(mi_heap_t* hp) : heap(hp) { } /* will not delete nor destroy the passed in heap */
#if (__cplusplus >= 201703L) // C++17
mi_decl_nodiscard T* allocate(size_type count) { return static_cast<T*>(mi_heap_alloc_new_n(this->heap.get(), count, sizeof(T))); }
@ -499,18 +499,18 @@ template<class T> struct _mi_heap_stl_allocator_common : public _mi_stl_allocato
#endif
void collect(bool force) { mi_heap_collect(this->heap.get(), force); }
template<class U> bool is_equal(const _mi_heap_stl_allocator_common<U>& x) { return (this->heap == x.heap); }
template<class U> bool is_equal(const _mi_heap_stl_allocator_common<U, destroy>& x) const { return (this->heap == x.heap); }
protected:
std::shared_ptr<mi_heap_t> heap;
template<class U> friend struct _mi_heap_stl_allocator_common;
_mi_heap_stl_allocator_common(bool destroy) {
template<class U, bool D> friend struct _mi_heap_stl_allocator_common;
_mi_heap_stl_allocator_common() {
mi_heap_t* hp = mi_heap_new();
this->heap.reset(hp, (destroy ? &heap_destroy : &heap_delete)); /* calls heap_delete/destroy when the refcount drops to zero */
}
_mi_heap_stl_allocator_common(const _mi_heap_stl_allocator_common& x) mi_attr_noexcept : heap(x.heap) { }
template<class U> _mi_heap_stl_allocator_common(const _mi_heap_stl_allocator_common<U>& x) mi_attr_noexcept : heap(x.heap) { }
template<class U> _mi_heap_stl_allocator_common(const _mi_heap_stl_allocator_common<U, destroy>& x) mi_attr_noexcept : heap(x.heap) { }
private:
static void heap_delete(mi_heap_t* hp) { if (hp != NULL) { mi_heap_delete(hp); } }
@ -518,11 +518,11 @@ private:
};
// STL allocator allocation in a specific heap
template<class T> struct mi_heap_stl_allocator : public _mi_heap_stl_allocator_common<T> {
using typename _mi_heap_stl_allocator_common<T>::size_type;
mi_heap_stl_allocator() : _mi_heap_stl_allocator_common<T>(false) { } /* delete on destruction */
mi_heap_stl_allocator(mi_heap_t* hp) : _mi_heap_stl_allocator_common<T>(hp) { } /* no delete or destroy on the passed in heap */
template<class U> mi_heap_stl_allocator(const mi_heap_stl_allocator<U>& x) mi_attr_noexcept : _mi_heap_stl_allocator_common<T>(x) { }
template<class T> struct mi_heap_stl_allocator : public _mi_heap_stl_allocator_common<T, false> {
using typename _mi_heap_stl_allocator_common<T, false>::size_type;
mi_heap_stl_allocator() : _mi_heap_stl_allocator_common<T, false>() { } // creates fresh heap that is deleted when the destructor is called
mi_heap_stl_allocator(mi_heap_t* hp) : _mi_heap_stl_allocator_common<T, false>(hp) { } // no delete nor destroy on the passed in heap
template<class U> mi_heap_stl_allocator(const mi_heap_stl_allocator<U>& x) mi_attr_noexcept : _mi_heap_stl_allocator_common<T, false>(x) { }
mi_heap_stl_allocator select_on_container_copy_construction() const { return *this; }
void deallocate(T* p, size_type) { mi_free(p); }
@ -535,10 +535,11 @@ template<class T1, class T2> bool operator!=(const mi_heap_stl_allocator<T1>& x,
// STL allocator allocation in a specific heap, where `free` does nothing and
// the heap is destroyed in one go on destruction -- use with care!
template<class T> struct mi_heap_destroy_stl_allocator : public _mi_heap_stl_allocator_common<T> {
using typename _mi_heap_stl_allocator_common<T>::size_type;
mi_heap_destroy_stl_allocator() : _mi_heap_stl_allocator_common<T>(true) { } /* destroy on destruction */
template<class U> mi_heap_destroy_stl_allocator(const mi_heap_destroy_stl_allocator<U>& x) mi_attr_noexcept : _mi_heap_stl_allocator_common<T>(x) { }
template<class T> struct mi_heap_destroy_stl_allocator : public _mi_heap_stl_allocator_common<T, true> {
using typename _mi_heap_stl_allocator_common<T, true>::size_type;
mi_heap_destroy_stl_allocator() : _mi_heap_stl_allocator_common<T, true>() { } // creates fresh heap that is destroyed when the destructor is called
mi_heap_destroy_stl_allocator(mi_heap_t* hp) : _mi_heap_stl_allocator_common<T, true>(hp) { } // no delete nor destroy on the passed in heap
template<class U> mi_heap_destroy_stl_allocator(const mi_heap_destroy_stl_allocator<U>& x) mi_attr_noexcept : _mi_heap_stl_allocator_common<T, true>(x) { }
mi_heap_destroy_stl_allocator select_on_container_copy_construction() const { return *this; }
void deallocate(T*, size_type) { /* do nothing as we destroy the heap on destruct. */ }