FB: Add range iteration support.

2020-07-27 12:26:06 -07:00 · 2020-07-27 12:26:06 -07:00 · ddb8dc4ad0
commit ddb8dc4ad0
parent ceee823519
2 changed files with 298 additions and 1 deletions
--- a/include/jemalloc/internal/flat_bitmap.h
+++ b/include/jemalloc/internal/flat_bitmap.h
@ -219,4 +219,69 @@ fb_fls(fb_group_t *fb, size_t nbits, size_t max_bit) {
 	    /* forward */ false);
 }
 /* Returns whether or not we found a range. */
 JEMALLOC_ALWAYS_INLINE bool
 fb_iter_range_impl(fb_group_t *fb, size_t nbits, size_t start, size_t *r_begin,
    size_t *r_len, bool val, bool forward) {
 	assert(start < nbits);
 	ssize_t next_range_begin = fb_find_impl(fb, nbits, start, val, forward);
 	if ((forward && next_range_begin == (ssize_t)nbits)
 	    || (!forward && next_range_begin == (ssize_t)-1)) {
 		return false;
 	}
 	/* Half open range; the set bits are [begin, end). */
 	ssize_t next_range_end = fb_find_impl(fb, nbits, next_range_begin, !val,
 	    forward);
 	if (forward) {
 		*r_begin = next_range_begin;
 		*r_len = next_range_end - next_range_begin;
 	} else {
 		*r_begin = next_range_end + 1;
 		*r_len = next_range_begin - next_range_end;
 	}
 	return true;
 }
 /*
 * Used to iterate through ranges of set bits.
 *
 * Tries to find the next contiguous sequence of set bits with a first index >=
 * start.  If one exists, puts the earliest bit of the range in *r_begin, its
 * length in *r_len, and returns true.  Otherwise, returns false (without
 * touching *r_begin or *r_end).
 */
 static inline bool
 fb_srange_iter(fb_group_t *fb, size_t nbits, size_t start, size_t *r_begin,
    size_t *r_len) {
 	return fb_iter_range_impl(fb, nbits, start, r_begin, r_len,
 	    /* val */ true, /* forward */ true);
 }
 /*
 * The same as fb_srange_iter, but searches backwards from start rather than
 * forwards.  (The position returned is still the earliest bit in the range).
 */
 static inline bool
 fb_srange_riter(fb_group_t *fb, size_t nbits, size_t start, size_t *r_begin,
    size_t *r_len) {
 	return fb_iter_range_impl(fb, nbits, start, r_begin, r_len,
 	    /* val */ true, /* forward */ false);
 }
 /* Similar to fb_srange_iter, but searches for unset bits. */
 static inline bool
 fb_urange_iter(fb_group_t *fb, size_t nbits, size_t start, size_t *r_begin,
    size_t *r_len) {
 	return fb_iter_range_impl(fb, nbits, start, r_begin, r_len,
 	    /* val */ false, /* forward */ true);
 }
 /* Similar to fb_srange_riter, but searches for unset bits. */
 static inline bool
 fb_urange_riter(fb_group_t *fb, size_t nbits, size_t start, size_t *r_begin,
    size_t *r_len) {
 	return fb_iter_range_impl(fb, nbits, start, r_begin, r_len,
 	    /* val */ false, /* forward */ false);
 }
 #endif /* JEMALLOC_INTERNAL_FB_H */
--- a/test/unit/flat_bitmap.c
+++ b/test/unit/flat_bitmap.c
@ -301,6 +301,236 @@ TEST_BEGIN(test_empty_full) {
 }
 TEST_END
 TEST_BEGIN(test_iter_range_simple) {
 	size_t set_limit = 30;
 	size_t nbits = 100;
 	fb_group_t fb[FB_NGROUPS(100)];
 	fb_init(fb, nbits);
 	/*
 	 * Failing to initialize these can lead to build failures with -Wall;
 	 * the compiler can't prove that they're set.
 	 */
 	size_t begin = (size_t)-1;
 	size_t len = (size_t)-1;
 	bool result;
 	/* A set of checks with only the first set_limit bits *set*. */
 	fb_set_range(fb, nbits, 0, set_limit);
 	for (size_t i = 0; i < set_limit; i++) {
 		result = fb_srange_iter(fb, nbits, i, &begin, &len);
 		expect_true(result, "Should have found a range at %zu", i);
 		expect_zu_eq(i, begin, "Incorrect begin at %zu", i);
 		expect_zu_eq(set_limit - i, len, "Incorrect len at %zu", i);
 		result = fb_urange_iter(fb, nbits, i, &begin, &len);
 		expect_true(result, "Should have found a range at %zu", i);
 		expect_zu_eq(set_limit, begin, "Incorrect begin at %zu", i);
 		expect_zu_eq(nbits - set_limit, len, "Incorrect len at %zu", i);
 		result = fb_srange_riter(fb, nbits, i, &begin, &len);
 		expect_true(result, "Should have found a range at %zu", i);
 		expect_zu_eq(0, begin, "Incorrect begin at %zu", i);
 		expect_zu_eq(i + 1, len, "Incorrect len at %zu", i);
 		result = fb_urange_riter(fb, nbits, i, &begin, &len);
 		expect_false(result, "Should not have found a range at %zu", i);
 	}
 	for (size_t i = set_limit; i < nbits; i++) {
 		result = fb_srange_iter(fb, nbits, i, &begin, &len);
 		expect_false(result, "Should not have found a range at %zu", i);
 		result = fb_urange_iter(fb, nbits, i, &begin, &len);
 		expect_true(result, "Should have found a range at %zu", i);
 		expect_zu_eq(i, begin, "Incorrect begin at %zu", i);
 		expect_zu_eq(nbits - i, len, "Incorrect len at %zu", i);
 		result = fb_srange_riter(fb, nbits, i, &begin, &len);
 		expect_true(result, "Should have found a range at %zu", i);
 		expect_zu_eq(0, begin, "Incorrect begin at %zu", i);
 		expect_zu_eq(set_limit, len, "Incorrect len at %zu", i);
 		result = fb_urange_riter(fb, nbits, i, &begin, &len);
 		expect_true(result, "Should have found a range at %zu", i);
 		expect_zu_eq(set_limit, begin, "Incorrect begin at %zu", i);
 		expect_zu_eq(i - set_limit + 1, len, "Incorrect len at %zu", i);
 	}
 	/* A set of checks with only the first set_limit bits *unset*. */
 	fb_unset_range(fb, nbits, 0, set_limit);
 	fb_set_range(fb, nbits, set_limit, nbits - set_limit);
 	for (size_t i = 0; i < set_limit; i++) {
 		result = fb_srange_iter(fb, nbits, i, &begin, &len);
 		expect_true(result, "Should have found a range at %zu", i);
 		expect_zu_eq(set_limit, begin, "Incorrect begin at %zu", i);
 		expect_zu_eq(nbits - set_limit, len, "Incorrect len at %zu", i);
 		result = fb_urange_iter(fb, nbits, i, &begin, &len);
 		expect_true(result, "Should have found a range at %zu", i);
 		expect_zu_eq(i, begin, "Incorrect begin at %zu", i);
 		expect_zu_eq(set_limit - i, len, "Incorrect len at %zu", i);
 		result = fb_srange_riter(fb, nbits, i, &begin, &len);
 		expect_false(result, "Should not have found a range at %zu", i);
 		result = fb_urange_riter(fb, nbits, i, &begin, &len);
 		expect_true(result, "Should not have found a range at %zu", i);
 		expect_zu_eq(0, begin, "Incorrect begin at %zu", i);
 		expect_zu_eq(i + 1, len, "Incorrect len at %zu", i);
 	}
 	for (size_t i = set_limit; i < nbits; i++) {
 		result = fb_srange_iter(fb, nbits, i, &begin, &len);
 		expect_true(result, "Should have found a range at %zu", i);
 		expect_zu_eq(i, begin, "Incorrect begin at %zu", i);
 		expect_zu_eq(nbits - i, len, "Incorrect len at %zu", i);
 		result = fb_urange_iter(fb, nbits, i, &begin, &len);
 		expect_false(result, "Should not have found a range at %zu", i);
 		result = fb_srange_riter(fb, nbits, i, &begin, &len);
 		expect_true(result, "Should have found a range at %zu", i);
 		expect_zu_eq(set_limit, begin, "Incorrect begin at %zu", i);
 		expect_zu_eq(i - set_limit + 1, len, "Incorrect len at %zu", i);
 		result = fb_urange_riter(fb, nbits, i, &begin, &len);
 		expect_true(result, "Should have found a range at %zu", i);
 		expect_zu_eq(0, begin, "Incorrect begin at %zu", i);
 		expect_zu_eq(set_limit, len, "Incorrect len at %zu", i);
 	}
 }
 TEST_END
 /*
 * Doing this bit-by-bit is too slow for a real implementation, but for testing
 * code, it's easy to get right.  In the exhaustive tests, we'll compare the
 * (fast but tricky) real implementation against the (slow but simple) testing
 * one.
 */
 static bool
 fb_iter_simple(fb_group_t *fb, size_t nbits, size_t start, size_t *r_begin,
    size_t *r_len, bool val, bool forward) {
 	ssize_t stride = (forward ? (ssize_t)1 : (ssize_t)-1);
 	ssize_t range_begin = (ssize_t)start;
 	for (; range_begin != (ssize_t)nbits && range_begin != -1;
 	    range_begin += stride) {
 		if (fb_get(fb, nbits, range_begin) == val) {
 			ssize_t range_end = range_begin;
 			for (; range_end != (ssize_t)nbits && range_end != -1;
 			    range_end += stride) {
 				if (fb_get(fb, nbits, range_end) != val) {
 					break;
 				}
 			}
 			if (forward) {
 				*r_begin = range_begin;
 				*r_len = range_end - range_begin;
 			} else {
 				*r_begin = range_end + 1;
 				*r_len = range_begin - range_end;
 			}
 			return true;
 		}
 	}
 	return false;
 }
 static void
 expect_iter_results_at(fb_group_t *fb, size_t nbits, size_t pos,
    bool val, bool forward) {
 	bool iter_res;
 	size_t iter_begin;
 	size_t iter_len;
 	if (val) {
 		if (forward) {
 			iter_res = fb_srange_iter(fb, nbits, pos,
 			    &iter_begin, &iter_len);
 		} else {
 			iter_res = fb_srange_riter(fb, nbits, pos,
 			    &iter_begin, &iter_len);
 		}
 	} else {
 		if (forward) {
 			iter_res = fb_urange_iter(fb, nbits, pos,
 			    &iter_begin, &iter_len);
 		} else {
 			iter_res = fb_urange_riter(fb, nbits, pos,
 			    &iter_begin, &iter_len);
 		}
 	}
 	bool simple_iter_res;
 	size_t simple_iter_begin;
 	size_t simple_iter_len;
 	simple_iter_res = fb_iter_simple(fb, nbits, pos, &simple_iter_begin,
 	    &simple_iter_len, val, forward);
 	expect_b_eq(iter_res, simple_iter_res, "Result mismatch at %zu", pos);
 	if (iter_res && simple_iter_res) {
 		assert_zu_eq(iter_begin, simple_iter_begin,
 		    "Begin mismatch at %zu", pos);
 		expect_zu_eq(iter_len, simple_iter_len,
 		    "Length mismatch at %zu", pos);
 	}
 }
 static void
 expect_iter_results(fb_group_t *fb, size_t nbits) {
 	for (size_t i = 0; i < nbits; i++) {
 		expect_iter_results_at(fb, nbits, i, false, false);
 		expect_iter_results_at(fb, nbits, i, false, true);
 		expect_iter_results_at(fb, nbits, i, true, false);
 		expect_iter_results_at(fb, nbits, i, true, true);
 	}
 }
 static void
 set_pattern_3(fb_group_t *fb, size_t nbits, bool zero_val) {
 	for (size_t i = 0; i < nbits; i++) {
 		if ((i % 6 < 3 && zero_val) || (i % 6 >= 3 && !zero_val)) {
 			fb_set(fb, nbits, i);
 		} else {
 			fb_unset(fb, nbits, i);
 		}
 	}
 }
 static void
 do_test_iter_range_exhaustive(size_t nbits) {
 	/* This test is also pretty slow. */
 	if (nbits > 1000) {
 		return;
 	}
 	size_t sz = FB_NGROUPS(nbits) * sizeof(fb_group_t);
 	fb_group_t *fb = malloc(sz);
 	fb_init(fb, nbits);
 	set_pattern_3(fb, nbits, /* zero_val */ true);
 	expect_iter_results(fb, nbits);
 	set_pattern_3(fb, nbits, /* zero_val */ false);
 	expect_iter_results(fb, nbits);
 	fb_set_range(fb, nbits, 0, nbits);
 	fb_unset_range(fb, nbits, 0, nbits / 2 == 0 ? 1 : nbits / 2);
 	expect_iter_results(fb, nbits);
 	fb_unset_range(fb, nbits, 0, nbits);
 	fb_set_range(fb, nbits, 0, nbits / 2 == 0 ? 1: nbits / 2);
 	expect_iter_results(fb, nbits);
 	free(fb);
 }
 TEST_BEGIN(test_iter_range_exhaustive) {
 #define NB(nbits) \
 	do_test_iter_range_exhaustive(nbits);
 	NBITS_TAB
 #undef NB
 }
 TEST_END
 int
 main(void) {
 	return test_no_reentrancy(
@ -309,5 +539,7 @@ main(void) {
 	    test_search_simple,
 	    test_search_exhaustive,
 	    test_range_simple,
-	    test_empty_full);
+	    test_empty_full,
 	    test_iter_range_simple,
 	    test_iter_range_exhaustive);
 }