8187443: Forest Consolidation: Move files to unified layout
Reviewed-by: darcy, ihse
/*
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#ifndef SHARE_VM_MEMORY_PADDED_HPP
#define SHARE_VM_MEMORY_PADDED_HPP
#include "memory/allocation.hpp"
#include "utilities/align.hpp"
#include "utilities/globalDefinitions.hpp"
// Bytes needed to pad type to avoid cache-line sharing; alignment should be the
// expected cache line size (a power of two). The first addend avoids sharing
// when the start address is not a multiple of alignment; the second maintains
// alignment of starting addresses that happen to be a multiple.
#define PADDING_SIZE(type, alignment) \
((alignment) + align_up_(sizeof(type), (alignment)))
// Templates to create a subclass padded to avoid cache line sharing. These are
// effective only when applied to derived-most (leaf) classes.
// When no args are passed to the base ctor.
template <class T, size_t alignment = DEFAULT_CACHE_LINE_SIZE>
class Padded : public T {
private:
char _pad_buf_[PADDING_SIZE(T, alignment)];
};
// When either 0 or 1 args may be passed to the base ctor.
template <class T, typename Arg1T, size_t alignment = DEFAULT_CACHE_LINE_SIZE>
class Padded01 : public T {
public:
Padded01(): T() { }
Padded01(Arg1T arg1): T(arg1) { }
private:
char _pad_buf_[PADDING_SIZE(T, alignment)];
};
// Super class of PaddedEnd when pad_size != 0.
template <class T, size_t pad_size>
class PaddedEndImpl : public T {
private:
char _pad_buf[pad_size];
};
// Super class of PaddedEnd when pad_size == 0.
template <class T>
class PaddedEndImpl<T, /*pad_size*/ 0> : public T {
// No padding.
};
#define PADDED_END_SIZE(type, alignment) (align_up_(sizeof(type), (alignment)) - sizeof(type))
// More memory conservative implementation of Padded. The subclass adds the
// minimal amount of padding needed to make the size of the objects be aligned.
// This will help reducing false sharing,
// if the start address is a multiple of alignment.
template <class T, size_t alignment = DEFAULT_CACHE_LINE_SIZE>
class PaddedEnd : public PaddedEndImpl<T, PADDED_END_SIZE(T, alignment)> {
// C++ doesn't allow zero-length arrays. The padding is put in a
// super class that is specialized for the pad_size == 0 case.
};
// Similar to PaddedEnd, this macro defines a _pad_buf#id field
// that is (alignment - size) bytes in size. This macro is used
// to add padding in between non-class fields in a class or struct.
#define DEFINE_PAD_MINUS_SIZE(id, alignment, size) \
char _pad_buf##id[(alignment) - (size)]
// Helper class to create an array of PaddedEnd<T> objects. All elements will
// start at a multiple of alignment and the size will be aligned to alignment.
template <class T, MEMFLAGS flags, size_t alignment = DEFAULT_CACHE_LINE_SIZE>
class PaddedArray {
public:
// Creates an aligned padded array.
// The memory can't be deleted since the raw memory chunk is not returned.
static PaddedEnd<T>* create_unfreeable(uint length);
};
// Helper class to create an array of references to arrays of primitive types
// Both the array of references and the data arrays are aligned to the given
// alignment. The allocated memory is zero-filled.
template <class T, MEMFLAGS flags, size_t alignment = DEFAULT_CACHE_LINE_SIZE>
class Padded2DArray {
public:
// Creates an aligned padded 2D array.
// The memory cannot be deleted since the raw memory chunk is not returned.
static T** create_unfreeable(uint rows, uint columns, size_t* allocation_size = NULL);
};
// Helper class to create an array of T objects. The array as a whole will
// start at a multiple of alignment and its size will be aligned to alignment.
template <class T, MEMFLAGS flags, size_t alignment = DEFAULT_CACHE_LINE_SIZE>
class PaddedPrimitiveArray {
public:
static T* create_unfreeable(size_t length);
};
#endif // SHARE_VM_MEMORY_PADDED_HPP