ceremonyclient/pebble/testdata/iter_histories/internal_next

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2024-01-03 07:31:42 +00:00
reset
----
# For all prefixes a-z, write 3 keys at timestamps @1, @10, @100.
# This populates a total of 26 * 3 = 78 keys.
populate keylen=1 timestamps=(1, 10, 100)
----
wrote 78 keys
combined-iter
first
next-prefix
internal-next
internal-next
next
next-prefix
internal-next
internal-next
next
internal-next
next
internal-next
----
a@100: (a@100, .)
b@100: (b@100, .)
.
.
b@10: (b@10, .)
c@100: (c@100, .)
.
.
c@10: (c@10, .)
.
c@1: (c@1, .)
.
combined-iter
first
next-prefix
can-deterministically-single-delete
can-deterministically-single-delete
next
next-prefix
can-deterministically-single-delete
next
can-deterministically-single-delete
next
can-deterministically-single-delete
----
a@100: (a@100, .)
b@100: (b@100, .)
true
err: pebble: CanDeterministicallySingleDelete called twice
b@10: (b@10, .)
c@100: (c@100, .)
true
c@10: (c@10, .)
true
c@1: (c@1, .)
true
# The start boundaries of range keys are interleaved and can cause the internal
# iterator to be advanced ahead to look for a point at the same user key. This
# is one of the few situations in which InternalNext may find the iterator is
# already positioned at iterPosNext. Test this scenario.
batch commit
range-key-set a b @1 foo
range-key-set bb c @2 bar
----
committed 2 keys
combined-iter
first
internal-next
next
internal-next
seek-ge b@10
internal-next
next
internal-next
internal-next
next
----
a: (., [a-b) @1=foo UPDATED)
.
a@100: (a@100, [a-b) @1=foo)
.
b@10: (b@10, . UPDATED)
.
b@1: (b@1, .)
.
.
bb: (., [bb-c) @2=bar UPDATED)
combined-iter
first
can-deterministically-single-delete
next
can-deterministically-single-delete
seek-ge b@10
can-deterministically-single-delete
next
can-deterministically-single-delete
next
----
a: (., [a-b) @1=foo UPDATED)
true
a@100: (a@100, [a-b) @1=foo)
true
b@10: (b@10, . UPDATED)
true
b@1: (b@1, .)
true
bb: (., [bb-c) @2=bar UPDATED)
reset
----
batch commit
set a a
set b b
range-key-set b c @1 foo
set d d
----
committed 4 keys
combined-iter
first
internal-next
next
internal-next
next
prev
internal-next
----
a: (a, .)
.
b: (b, [b-c) @1=foo UPDATED)
.
d: (d, . UPDATED)
b: (b, [b-c) @1=foo UPDATED)
err: switching from reverse to forward via internalNext is prohibited
combined-iter
first
can-deterministically-single-delete
next
can-deterministically-single-delete
next
prev
can-deterministically-single-delete
----
a: (a, .)
true
b: (b, [b-c) @1=foo UPDATED)
true
d: (d, . UPDATED)
b: (b, [b-c) @1=foo UPDATED)
err: switching from reverse to forward via internalNext is prohibited
# Perform a test where we produce two internal versions (both SETs) for each
# user key. Note that this test disables automatic compactions, so the presence
# of the internal keys will be deterministic.
reset
----
populate keylen=1 timestamps=(1, 10, 100)
----
wrote 78 keys
flush
----
populate keylen=1 timestamps=(1, 10, 100)
----
wrote 78 keys
combined-iter
first
next-prefix
internal-next
internal-next
next
next-prefix
internal-next
internal-next
next
internal-next
next
internal-next
----
a@100: (a@100, .)
b@100: (b@100, .)
SET
.
b@10: (b@10, .)
c@100: (c@100, .)
SET
.
c@10: (c@10, .)
SET
c@1: (c@1, .)
SET
combined-iter
seek-ge z
internal-next
next
next
internal-next
internal-next
next
internal-next
----
z@100: (z@100, .)
SET
z@10: (z@10, .)
z@1: (z@1, .)
SET
.
.
.
combined-iter
first
next-prefix
can-deterministically-single-delete
next
next-prefix
can-deterministically-single-delete
next
can-deterministically-single-delete
next
can-deterministically-single-delete
----
a@100: (a@100, .)
b@100: (b@100, .)
false
b@10: (b@10, .)
c@100: (c@100, .)
false
c@10: (c@10, .)
false
c@1: (c@1, .)
false
# Test that a CanDeterministicallySingleDelete is true if the old SETs are all
# deleted by a range delete.
batch commit
del-range a zzz
----
committed 1 keys
populate keylen=1 timestamps=(1, 10, 100)
----
wrote 78 keys
combined-iter
first
next-prefix
can-deterministically-single-delete
next
next-prefix
can-deterministically-single-delete
next
can-deterministically-single-delete
next
can-deterministically-single-delete
----
a@100: (a@100, .)
b@100: (b@100, .)
true
b@10: (b@10, .)
c@100: (c@100, .)
true
c@10: (c@10, .)
true
c@1: (c@1, .)
true
# Set fmv=FormatDeleteSizedAndObsolete.
reset format-major-version=15
----
# Test that a SET > SINGLEDEL > SET sequence yields
# CanDeterministicallySingleDelete() = true. This is okay because if the SET
# consumes the SINGLEDEL, it becomes a SETWITHDEL. If a SINGLEDEL consumes a
# SETWITHDEL, it becomes a DEL.
batch commit
set a a
singledel a
set a a
----
committed 3 keys
combined-iter
first
internal-next
internal-next
first
can-deterministically-single-delete
----
a: (a, .)
SINGLEDEL
SET
a: (a, .)
true
# Deleting with a DEL[SIZED] should then allow deterministic single delete
# again.
batch commit
del a
set a a
----
committed 2 keys
combined-iter
first
internal-next
internal-next
internal-next
internal-next
internal-next
first
can-deterministically-single-delete
----
a: (a, .)
DEL
SET
SINGLEDEL
SET
.
a: (a, .)
true
# The above case tested DEL. Explicitly test DELSIZED by setting the key again,
# then writing a DELSIZED, then another key.
batch commit
del-sized a 1
set a a
----
committed 2 keys
combined-iter
first
internal-next
internal-next
internal-next
internal-next
internal-next
internal-next
internal-next
first
can-deterministically-single-delete
----
a: (a, .)
DELSIZED
SET
DEL
SET
SINGLEDEL
SET
.
a: (a, .)
true