The only caller of compareJsonbScalarValue that needed locale-sensitive
comparison of strings was also the only caller that didn't just check for
equality. Separate the two cases for clarity: compareJsonbScalarValue now
does locale-sensitive comparison, and a new function,
equalsJsonbScalarValue, just checks for equality.
Fix an over-zealous assertion, which didn't take into account that sometimes
a scalar element can be compared against an array/object element.
Avoid comparing possibly-uninitialized local variables when end-of-array or
end-of-object is reached. Also fix and enhance comments a bit.
Peter Geoghegan, per reports by Pavel Stehule and me.
reserveFromBuffer() failed to consider the possibility that it needs to
more-than-double the current buffer size. Beyond that, it seems likely
that we'd someday need to worry about integer overflow of the buffer
length variable. Rather than reinvent the logic that's already been
debugged in stringinfo.c, let's go back to using that logic. We can
still have the same targeted API, but we'll rely on stringinfo.c to
manage reallocation.
Per report from Alexander Korotkov.
Fix JSONB_MAX_ELEMS and JSONB_MAX_PAIRS macros to use CB_MASK in the
calculation. JENTRY_POSMASK happens to have the same value at the moment,
but that's just coincidental.
Refactor jsonb iterator functions, for readability.
Get rid of the JENTRY_ISFIRST flag. Whenever we handle JEntrys, we have
access to the whole array and have enough context information to know
which entry is the first. This frees up one bit in the JEntry header for
future use. While we're at it, shuffle the JEntry bits so that boolean
true and false go together, for aesthetic reasons.
Bump catalog version as this changes the on-disk format slightly.
Move the functions around to group related functions together. Remove
binequal argument from lengthCompareJsonbStringValue, moving that
responsibility to lengthCompareJsonbPair. Fix typo in comment.
The main target of this cleanup is the convertJsonb() function, but I also
touched a lot of other things that I spotted into in the process.
The new convertToJsonb() function uses an output buffer that's resized on
demand, so the code to estimate of the size of JsonbValue is removed.
The on-disk format was not changed, even though I refactored the structs
used to handle it. The term "superheader" is replaced with "container".
The jsonb_exists_any and jsonb_exists_all functions no longer sort the input
array. That was a premature optimization, the idea being that if there are
duplicates in the input array, you only need to check them once. Also,
sorting the array saves some effort in the binary search used to find a key
within an object. But there were drawbacks too: the sorting and
deduplicating obviously isn't free, and in the typical case there are no
duplicates to remove, and the gain in the binary search was minimal. Remove
all that, which makes the code simpler too.
This includes a bug-fix; the total length of the elements in a jsonb array
or object mustn't exceed 2^28. That is now checked.
The coding in JsonbHashScalarValue might have accidentally failed to fail
given current representational choices, but the key word there would be
"accidental". Insert the appropriate datatype conversion macro. And
use the right conversion macro for hash_numeric's result, too.
In passing make the code a bit cleaner and less repetitive by factoring
out the xor step from the switch.
The new format accepts exactly the same data as the json type. However, it is
stored in a format that does not require reparsing the orgiginal text in order
to process it, making it much more suitable for indexing and other operations.
Insignificant whitespace is discarded, and the order of object keys is not
preserved. Neither are duplicate object keys kept - the later value for a given
key is the only one stored.
The new type has all the functions and operators that the json type has,
with the exception of the json generation functions (to_json, json_agg etc.)
and with identical semantics. In addition, there are operator classes for
hash and btree indexing, and two classes for GIN indexing, that have no
equivalent in the json type.
This feature grew out of previous work by Oleg Bartunov and Teodor Sigaev, which
was intended to provide similar facilities to a nested hstore type, but which
in the end proved to have some significant compatibility issues.
Authors: Oleg Bartunov, Teodor Sigaev, Peter Geoghegan and Andrew Dunstan.
Review: Andres Freund