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Diffstat (limited to 'fluent-bit/lib/jemalloc-5.3.0/include/jemalloc/internal/qr.h')
| -rw-r--r-- | fluent-bit/lib/jemalloc-5.3.0/include/jemalloc/internal/qr.h | 140 |
1 files changed, 140 insertions, 0 deletions
diff --git a/fluent-bit/lib/jemalloc-5.3.0/include/jemalloc/internal/qr.h b/fluent-bit/lib/jemalloc-5.3.0/include/jemalloc/internal/qr.h new file mode 100644 index 00000000..ece4f556 --- /dev/null +++ b/fluent-bit/lib/jemalloc-5.3.0/include/jemalloc/internal/qr.h @@ -0,0 +1,140 @@ +#ifndef JEMALLOC_INTERNAL_QR_H +#define JEMALLOC_INTERNAL_QR_H + +/* + * A ring implementation based on an embedded circular doubly-linked list. + * + * You define your struct like so: + * + * typedef struct my_s my_t; + * struct my_s { + * int data; + * qr(my_t) my_link; + * }; + * + * And then pass a my_t * into macros for a_qr arguments, and the token + * "my_link" into a_field fields. + */ + +/* Ring definitions. */ +#define qr(a_type) \ +struct { \ + a_type *qre_next; \ + a_type *qre_prev; \ +} + +/* + * Initialize a qr link. Every link must be initialized before being used, even + * if that initialization is going to be immediately overwritten (say, by being + * passed into an insertion macro). + */ +#define qr_new(a_qr, a_field) do { \ + (a_qr)->a_field.qre_next = (a_qr); \ + (a_qr)->a_field.qre_prev = (a_qr); \ +} while (0) + +/* + * Go forwards or backwards in the ring. Note that (the ring being circular), this + * always succeeds -- you just keep looping around and around the ring if you + * chase pointers without end. + */ +#define qr_next(a_qr, a_field) ((a_qr)->a_field.qre_next) +#define qr_prev(a_qr, a_field) ((a_qr)->a_field.qre_prev) + +/* + * Given two rings: + * a -> a_1 -> ... -> a_n -- + * ^ | + * |------------------------ + * + * b -> b_1 -> ... -> b_n -- + * ^ | + * |------------------------ + * + * Results in the ring: + * a -> a_1 -> ... -> a_n -> b -> b_1 -> ... -> b_n -- + * ^ | + * |-------------------------------------------------| + * + * a_qr_a can directly be a qr_next() macro, but a_qr_b cannot. + */ +#define qr_meld(a_qr_a, a_qr_b, a_field) do { \ + (a_qr_b)->a_field.qre_prev->a_field.qre_next = \ + (a_qr_a)->a_field.qre_prev; \ + (a_qr_a)->a_field.qre_prev = (a_qr_b)->a_field.qre_prev; \ + (a_qr_b)->a_field.qre_prev = \ + (a_qr_b)->a_field.qre_prev->a_field.qre_next; \ + (a_qr_a)->a_field.qre_prev->a_field.qre_next = (a_qr_a); \ + (a_qr_b)->a_field.qre_prev->a_field.qre_next = (a_qr_b); \ +} while (0) + +/* + * Logically, this is just a meld. The intent, though, is that a_qrelm is a + * single-element ring, so that "before" has a more obvious interpretation than + * meld. + */ +#define qr_before_insert(a_qrelm, a_qr, a_field) \ + qr_meld((a_qrelm), (a_qr), a_field) + +/* Ditto, but inserting after rather than before. */ +#define qr_after_insert(a_qrelm, a_qr, a_field) \ + qr_before_insert(qr_next(a_qrelm, a_field), (a_qr), a_field) + +/* + * Inverts meld; given the ring: + * a -> a_1 -> ... -> a_n -> b -> b_1 -> ... -> b_n -- + * ^ | + * |-------------------------------------------------| + * + * Results in two rings: + * a -> a_1 -> ... -> a_n -- + * ^ | + * |------------------------ + * + * b -> b_1 -> ... -> b_n -- + * ^ | + * |------------------------ + * + * qr_meld() and qr_split() are functionally equivalent, so there's no need to + * have two copies of the code. + */ +#define qr_split(a_qr_a, a_qr_b, a_field) \ + qr_meld((a_qr_a), (a_qr_b), a_field) + +/* + * Splits off a_qr from the rest of its ring, so that it becomes a + * single-element ring. + */ +#define qr_remove(a_qr, a_field) \ + qr_split(qr_next(a_qr, a_field), (a_qr), a_field) + +/* + * Helper macro to iterate over each element in a ring exactly once, starting + * with a_qr. The usage is (assuming my_t defined as above): + * + * int sum(my_t *item) { + * int sum = 0; + * my_t *iter; + * qr_foreach(iter, item, link) { + * sum += iter->data; + * } + * return sum; + * } + */ +#define qr_foreach(var, a_qr, a_field) \ + for ((var) = (a_qr); \ + (var) != NULL; \ + (var) = (((var)->a_field.qre_next != (a_qr)) \ + ? (var)->a_field.qre_next : NULL)) + +/* + * The same (and with the same usage) as qr_foreach, but in the opposite order, + * ending with a_qr. + */ +#define qr_reverse_foreach(var, a_qr, a_field) \ + for ((var) = ((a_qr) != NULL) ? qr_prev(a_qr, a_field) : NULL; \ + (var) != NULL; \ + (var) = (((var) != (a_qr)) \ + ? (var)->a_field.qre_prev : NULL)) + +#endif /* JEMALLOC_INTERNAL_QR_H */ |