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lib/min_heap: introduce non-inline versions of min heap API functions
Patch series "Enhance min heap API with non-inline functions and optimizations", v2. Add non-inline versions of the min heap API functions in lib/min_heap.c and updates all users outside of kernel/events/core.c to use these non-inline versions. To mitigate the performance impact of indirect function calls caused by the non-inline versions of the swap and compare functions, a builtin swap has been introduced that swaps elements based on their size. Additionally, it micro-optimizes the efficiency of the min heap by pre-scaling the counter, following the same approach as in lib/sort.c. Documentation for the min heap API has also been added to the core-api section. This patch (of 10): All current min heap API functions are marked with '__always_inline'. However, as the number of users increases, inlining these functions everywhere leads to a increase in kernel size. In performance-critical paths, such as when perf events are enabled and min heap functions are called on every context switch, it is important to retain the inline versions for optimal performance. To balance this, the original inline functions are kept, and additional non-inline versions of the functions have been added in lib/min_heap.c. Link: https://lkml.kernel.org/r/20241020040200.939973-1-visitorckw@gmail.com Link: https://lore.kernel.org/20240522161048.8d8bbc7b153b4ecd92c50666@linux-foundation.org Link: https://lkml.kernel.org/r/20241020040200.939973-2-visitorckw@gmail.com Signed-off-by: Kuan-Wei Chiu <visitorckw@gmail.com> Suggested-by: Andrew Morton <akpm@linux-foundation.org> Cc: Adrian Hunter <adrian.hunter@intel.com> Cc: Arnaldo Carvalho de Melo <acme@kernel.org> Cc: Ching-Chun (Jim) Huang <jserv@ccns.ncku.edu.tw> Cc: Coly Li <colyli@suse.de> Cc: Ian Rogers <irogers@google.com> Cc: Ingo Molnar <mingo@redhat.com> Cc: Jiri Olsa <jolsa@kernel.org> Cc: Jonathan Corbet <corbet@lwn.net> Cc: Kent Overstreet <kent.overstreet@linux.dev> Cc: Kuan-Wei Chiu <visitorckw@gmail.com> Cc: "Liang, Kan" <kan.liang@linux.intel.com> Cc: Mark Rutland <mark.rutland@arm.com> Cc: Matthew Sakai <msakai@redhat.com> Cc: Matthew Wilcox (Oracle) <willy@infradead.org> Cc: Namhyung Kim <namhyung@kernel.org> Cc: Peter Zijlstra <peterz@infradead.org> Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
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@ -5,6 +5,7 @@ config BCACHE
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select BLOCK_HOLDER_DEPRECATED if SYSFS
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select CRC64
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select CLOSURES
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select MIN_HEAP
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help
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Allows a block device to be used as cache for other devices; uses
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a btree for indexing and the layout is optimized for SSDs.
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@ -7,6 +7,7 @@ config DM_VDO
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select DM_BUFIO
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select LZ4_COMPRESS
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select LZ4_DECOMPRESS
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select MIN_HEAP
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help
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This device mapper target presents a block device with
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deduplication, compression and thin-provisioning.
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@ -24,6 +24,7 @@ config BCACHEFS_FS
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select XXHASH
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select SRCU
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select SYMBOLIC_ERRNAME
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select MIN_HEAP
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help
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The bcachefs filesystem - a modern, copy on write filesystem, with
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support for multiple devices, compression, checksumming, etc.
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@ -40,7 +40,7 @@ struct min_heap_callbacks {
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/* Initialize a min-heap. */
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static __always_inline
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void __min_heap_init(min_heap_char *heap, void *data, int size)
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void __min_heap_init_inline(min_heap_char *heap, void *data, int size)
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{
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heap->nr = 0;
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heap->size = size;
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@ -50,33 +50,33 @@ void __min_heap_init(min_heap_char *heap, void *data, int size)
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heap->data = heap->preallocated;
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}
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#define min_heap_init(_heap, _data, _size) \
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__min_heap_init((min_heap_char *)_heap, _data, _size)
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#define min_heap_init_inline(_heap, _data, _size) \
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__min_heap_init_inline((min_heap_char *)_heap, _data, _size)
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/* Get the minimum element from the heap. */
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static __always_inline
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void *__min_heap_peek(struct min_heap_char *heap)
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void *__min_heap_peek_inline(struct min_heap_char *heap)
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{
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return heap->nr ? heap->data : NULL;
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}
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#define min_heap_peek(_heap) \
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(__minheap_cast(_heap) __min_heap_peek((min_heap_char *)_heap))
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#define min_heap_peek_inline(_heap) \
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(__minheap_cast(_heap) __min_heap_peek_inline((min_heap_char *)_heap))
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/* Check if the heap is full. */
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static __always_inline
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bool __min_heap_full(min_heap_char *heap)
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bool __min_heap_full_inline(min_heap_char *heap)
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{
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return heap->nr == heap->size;
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}
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#define min_heap_full(_heap) \
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__min_heap_full((min_heap_char *)_heap)
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#define min_heap_full_inline(_heap) \
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__min_heap_full_inline((min_heap_char *)_heap)
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/* Sift the element at pos down the heap. */
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static __always_inline
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void __min_heap_sift_down(min_heap_char *heap, int pos, size_t elem_size,
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const struct min_heap_callbacks *func, void *args)
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void __min_heap_sift_down_inline(min_heap_char *heap, int pos, size_t elem_size,
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const struct min_heap_callbacks *func, void *args)
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{
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void *left, *right;
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void *data = heap->data;
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@ -108,13 +108,14 @@ void __min_heap_sift_down(min_heap_char *heap, int pos, size_t elem_size,
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}
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}
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#define min_heap_sift_down(_heap, _pos, _func, _args) \
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__min_heap_sift_down((min_heap_char *)_heap, _pos, __minheap_obj_size(_heap), _func, _args)
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#define min_heap_sift_down_inline(_heap, _pos, _func, _args) \
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__min_heap_sift_down_inline((min_heap_char *)_heap, _pos, __minheap_obj_size(_heap), \
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_func, _args)
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/* Sift up ith element from the heap, O(log2(nr)). */
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static __always_inline
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void __min_heap_sift_up(min_heap_char *heap, size_t elem_size, size_t idx,
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const struct min_heap_callbacks *func, void *args)
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void __min_heap_sift_up_inline(min_heap_char *heap, size_t elem_size, size_t idx,
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const struct min_heap_callbacks *func, void *args)
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{
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void *data = heap->data;
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size_t parent;
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@ -128,27 +129,28 @@ void __min_heap_sift_up(min_heap_char *heap, size_t elem_size, size_t idx,
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}
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}
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#define min_heap_sift_up(_heap, _idx, _func, _args) \
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__min_heap_sift_up((min_heap_char *)_heap, __minheap_obj_size(_heap), _idx, _func, _args)
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#define min_heap_sift_up_inline(_heap, _idx, _func, _args) \
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__min_heap_sift_up_inline((min_heap_char *)_heap, __minheap_obj_size(_heap), _idx, \
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_func, _args)
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/* Floyd's approach to heapification that is O(nr). */
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static __always_inline
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void __min_heapify_all(min_heap_char *heap, size_t elem_size,
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const struct min_heap_callbacks *func, void *args)
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void __min_heapify_all_inline(min_heap_char *heap, size_t elem_size,
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const struct min_heap_callbacks *func, void *args)
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{
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int i;
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for (i = heap->nr / 2 - 1; i >= 0; i--)
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__min_heap_sift_down(heap, i, elem_size, func, args);
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__min_heap_sift_down_inline(heap, i, elem_size, func, args);
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}
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#define min_heapify_all(_heap, _func, _args) \
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__min_heapify_all((min_heap_char *)_heap, __minheap_obj_size(_heap), _func, _args)
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#define min_heapify_all_inline(_heap, _func, _args) \
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__min_heapify_all_inline((min_heap_char *)_heap, __minheap_obj_size(_heap), _func, _args)
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/* Remove minimum element from the heap, O(log2(nr)). */
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static __always_inline
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bool __min_heap_pop(min_heap_char *heap, size_t elem_size,
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const struct min_heap_callbacks *func, void *args)
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bool __min_heap_pop_inline(min_heap_char *heap, size_t elem_size,
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const struct min_heap_callbacks *func, void *args)
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{
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void *data = heap->data;
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@ -158,13 +160,13 @@ bool __min_heap_pop(min_heap_char *heap, size_t elem_size,
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/* Place last element at the root (position 0) and then sift down. */
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heap->nr--;
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memcpy(data, data + (heap->nr * elem_size), elem_size);
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__min_heap_sift_down(heap, 0, elem_size, func, args);
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__min_heap_sift_down_inline(heap, 0, elem_size, func, args);
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return true;
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}
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#define min_heap_pop(_heap, _func, _args) \
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__min_heap_pop((min_heap_char *)_heap, __minheap_obj_size(_heap), _func, _args)
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#define min_heap_pop_inline(_heap, _func, _args) \
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__min_heap_pop_inline((min_heap_char *)_heap, __minheap_obj_size(_heap), _func, _args)
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/*
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* Remove the minimum element and then push the given element. The
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@ -172,22 +174,21 @@ bool __min_heap_pop(min_heap_char *heap, size_t elem_size,
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* efficient than a pop followed by a push that does 2.
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*/
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static __always_inline
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void __min_heap_pop_push(min_heap_char *heap,
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const void *element, size_t elem_size,
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const struct min_heap_callbacks *func,
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void *args)
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void __min_heap_pop_push_inline(min_heap_char *heap, const void *element, size_t elem_size,
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const struct min_heap_callbacks *func, void *args)
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{
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memcpy(heap->data, element, elem_size);
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__min_heap_sift_down(heap, 0, elem_size, func, args);
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__min_heap_sift_down_inline(heap, 0, elem_size, func, args);
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}
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#define min_heap_pop_push(_heap, _element, _func, _args) \
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__min_heap_pop_push((min_heap_char *)_heap, _element, __minheap_obj_size(_heap), _func, _args)
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#define min_heap_pop_push_inline(_heap, _element, _func, _args) \
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__min_heap_pop_push_inline((min_heap_char *)_heap, _element, __minheap_obj_size(_heap), \
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_func, _args)
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/* Push an element on to the heap, O(log2(nr)). */
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static __always_inline
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bool __min_heap_push(min_heap_char *heap, const void *element, size_t elem_size,
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const struct min_heap_callbacks *func, void *args)
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bool __min_heap_push_inline(min_heap_char *heap, const void *element, size_t elem_size,
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const struct min_heap_callbacks *func, void *args)
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{
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void *data = heap->data;
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int pos;
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@ -201,18 +202,19 @@ bool __min_heap_push(min_heap_char *heap, const void *element, size_t elem_size,
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heap->nr++;
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/* Sift child at pos up. */
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__min_heap_sift_up(heap, elem_size, pos, func, args);
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__min_heap_sift_up_inline(heap, elem_size, pos, func, args);
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return true;
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}
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#define min_heap_push(_heap, _element, _func, _args) \
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__min_heap_push((min_heap_char *)_heap, _element, __minheap_obj_size(_heap), _func, _args)
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#define min_heap_push_inline(_heap, _element, _func, _args) \
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__min_heap_push_inline((min_heap_char *)_heap, _element, __minheap_obj_size(_heap), \
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_func, _args)
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/* Remove ith element from the heap, O(log2(nr)). */
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static __always_inline
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bool __min_heap_del(min_heap_char *heap, size_t elem_size, size_t idx,
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const struct min_heap_callbacks *func, void *args)
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bool __min_heap_del_inline(min_heap_char *heap, size_t elem_size, size_t idx,
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const struct min_heap_callbacks *func, void *args)
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{
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void *data = heap->data;
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@ -224,12 +226,53 @@ bool __min_heap_del(min_heap_char *heap, size_t elem_size, size_t idx,
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if (idx == heap->nr)
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return true;
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func->swp(data + (idx * elem_size), data + (heap->nr * elem_size), args);
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__min_heap_sift_up(heap, elem_size, idx, func, args);
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__min_heap_sift_down(heap, idx, elem_size, func, args);
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__min_heap_sift_up_inline(heap, elem_size, idx, func, args);
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__min_heap_sift_down_inline(heap, idx, elem_size, func, args);
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return true;
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}
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#define min_heap_del_inline(_heap, _idx, _func, _args) \
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__min_heap_del_inline((min_heap_char *)_heap, __minheap_obj_size(_heap), _idx, \
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_func, _args)
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void __min_heap_init(min_heap_char *heap, void *data, int size);
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void *__min_heap_peek(struct min_heap_char *heap);
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bool __min_heap_full(min_heap_char *heap);
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void __min_heap_sift_down(min_heap_char *heap, int pos, size_t elem_size,
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const struct min_heap_callbacks *func, void *args);
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void __min_heap_sift_up(min_heap_char *heap, size_t elem_size, size_t idx,
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const struct min_heap_callbacks *func, void *args);
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void __min_heapify_all(min_heap_char *heap, size_t elem_size,
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const struct min_heap_callbacks *func, void *args);
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bool __min_heap_pop(min_heap_char *heap, size_t elem_size,
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const struct min_heap_callbacks *func, void *args);
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void __min_heap_pop_push(min_heap_char *heap, const void *element, size_t elem_size,
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const struct min_heap_callbacks *func, void *args);
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bool __min_heap_push(min_heap_char *heap, const void *element, size_t elem_size,
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const struct min_heap_callbacks *func, void *args);
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bool __min_heap_del(min_heap_char *heap, size_t elem_size, size_t idx,
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const struct min_heap_callbacks *func, void *args);
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#define min_heap_init(_heap, _data, _size) \
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__min_heap_init((min_heap_char *)_heap, _data, _size)
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#define min_heap_peek(_heap) \
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(__minheap_cast(_heap) __min_heap_peek((min_heap_char *)_heap))
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#define min_heap_full(_heap) \
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__min_heap_full((min_heap_char *)_heap)
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#define min_heap_sift_down(_heap, _pos, _func, _args) \
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__min_heap_sift_down((min_heap_char *)_heap, _pos, __minheap_obj_size(_heap), _func, _args)
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#define min_heap_sift_up(_heap, _idx, _func, _args) \
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__min_heap_sift_up((min_heap_char *)_heap, __minheap_obj_size(_heap), _idx, _func, _args)
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#define min_heapify_all(_heap, _func, _args) \
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__min_heapify_all((min_heap_char *)_heap, __minheap_obj_size(_heap), _func, _args)
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#define min_heap_pop(_heap, _func, _args) \
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__min_heap_pop((min_heap_char *)_heap, __minheap_obj_size(_heap), _func, _args)
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#define min_heap_pop_push(_heap, _element, _func, _args) \
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__min_heap_pop_push((min_heap_char *)_heap, _element, __minheap_obj_size(_heap), \
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_func, _args)
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#define min_heap_push(_heap, _element, _func, _args) \
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__min_heap_push((min_heap_char *)_heap, _element, __minheap_obj_size(_heap), _func, _args)
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#define min_heap_del(_heap, _idx, _func, _args) \
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__min_heap_del((min_heap_char *)_heap, __minheap_obj_size(_heap), _idx, _func, _args)
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@ -3870,7 +3870,7 @@ static noinline int visit_groups_merge(struct perf_event_context *ctx,
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perf_assert_pmu_disabled((*evt)->pmu_ctx->pmu);
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}
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min_heapify_all(&event_heap, &perf_min_heap, NULL);
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min_heapify_all_inline(&event_heap, &perf_min_heap, NULL);
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while (event_heap.nr) {
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ret = func(*evt, data);
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@ -3879,9 +3879,9 @@ static noinline int visit_groups_merge(struct perf_event_context *ctx,
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*evt = perf_event_groups_next(*evt, pmu);
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if (*evt)
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min_heap_sift_down(&event_heap, 0, &perf_min_heap, NULL);
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min_heap_sift_down_inline(&event_heap, 0, &perf_min_heap, NULL);
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else
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min_heap_pop(&event_heap, &perf_min_heap, NULL);
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min_heap_pop_inline(&event_heap, &perf_min_heap, NULL);
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}
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return 0;
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@ -780,3 +780,6 @@ config FIRMWARE_TABLE
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config UNION_FIND
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bool
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config MIN_HEAP
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bool
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@ -2279,6 +2279,7 @@ config TEST_LIST_SORT
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config TEST_MIN_HEAP
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tristate "Min heap test"
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depends on DEBUG_KERNEL || m
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select MIN_HEAP
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help
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Enable this to turn on min heap function tests. This test is
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executed only once during system boot (so affects only boot time),
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@ -40,6 +40,7 @@ lib-y := ctype.o string.o vsprintf.o cmdline.o \
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lib-$(CONFIG_UNION_FIND) += union_find.o
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lib-$(CONFIG_PRINTK) += dump_stack.o
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lib-$(CONFIG_SMP) += cpumask.o
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lib-$(CONFIG_MIN_HEAP) += min_heap.o
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lib-y += kobject.o klist.o
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obj-y += lockref.o
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70
lib/min_heap.c
Normal file
70
lib/min_heap.c
Normal file
@ -0,0 +1,70 @@
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// SPDX-License-Identifier: GPL-2.0
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#include <linux/export.h>
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#include <linux/min_heap.h>
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void __min_heap_init(min_heap_char *heap, void *data, int size)
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{
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__min_heap_init_inline(heap, data, size);
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}
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EXPORT_SYMBOL(__min_heap_init);
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void *__min_heap_peek(struct min_heap_char *heap)
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{
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return __min_heap_peek_inline(heap);
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}
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EXPORT_SYMBOL(__min_heap_peek);
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bool __min_heap_full(min_heap_char *heap)
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{
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return __min_heap_full_inline(heap);
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}
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EXPORT_SYMBOL(__min_heap_full);
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|
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void __min_heap_sift_down(min_heap_char *heap, int pos, size_t elem_size,
|
||||
const struct min_heap_callbacks *func, void *args)
|
||||
{
|
||||
__min_heap_sift_down_inline(heap, pos, elem_size, func, args);
|
||||
}
|
||||
EXPORT_SYMBOL(__min_heap_sift_down);
|
||||
|
||||
void __min_heap_sift_up(min_heap_char *heap, size_t elem_size, size_t idx,
|
||||
const struct min_heap_callbacks *func, void *args)
|
||||
{
|
||||
__min_heap_sift_up_inline(heap, elem_size, idx, func, args);
|
||||
}
|
||||
EXPORT_SYMBOL(__min_heap_sift_up);
|
||||
|
||||
void __min_heapify_all(min_heap_char *heap, size_t elem_size,
|
||||
const struct min_heap_callbacks *func, void *args)
|
||||
{
|
||||
__min_heapify_all_inline(heap, elem_size, func, args);
|
||||
}
|
||||
EXPORT_SYMBOL(__min_heapify_all);
|
||||
|
||||
bool __min_heap_pop(min_heap_char *heap, size_t elem_size,
|
||||
const struct min_heap_callbacks *func, void *args)
|
||||
{
|
||||
return __min_heap_pop_inline(heap, elem_size, func, args);
|
||||
}
|
||||
EXPORT_SYMBOL(__min_heap_pop);
|
||||
|
||||
void __min_heap_pop_push(min_heap_char *heap, const void *element, size_t elem_size,
|
||||
const struct min_heap_callbacks *func, void *args)
|
||||
{
|
||||
__min_heap_pop_push_inline(heap, element, elem_size, func, args);
|
||||
}
|
||||
EXPORT_SYMBOL(__min_heap_pop_push);
|
||||
|
||||
bool __min_heap_push(min_heap_char *heap, const void *element, size_t elem_size,
|
||||
const struct min_heap_callbacks *func, void *args)
|
||||
{
|
||||
return __min_heap_push_inline(heap, element, elem_size, func, args);
|
||||
}
|
||||
EXPORT_SYMBOL(__min_heap_push);
|
||||
|
||||
bool __min_heap_del(min_heap_char *heap, size_t elem_size, size_t idx,
|
||||
const struct min_heap_callbacks *func, void *args)
|
||||
{
|
||||
return __min_heap_del_inline(heap, elem_size, idx, func, args);
|
||||
}
|
||||
EXPORT_SYMBOL(__min_heap_del);
|
Loading…
Reference in New Issue
Block a user