in in {fmt} before v10, it provides the specialization of `fmt::formatter<..>`
for `std::string_view` as well as the specialization of `fmt::formatter<..>`
for `fmt::string_view` which is an implementation builtin in {fmt} for
compatibility of pre-C++17. and this type is used even if the code is
compiled with C++ stadandard greater or equal to C++17. also, before v10,
the `fmt::formatter<std::string_view>::format()` is defined so it accepts
`std::string_view`. after v10, `fmt::formatter<std::string_view>` still
exists, but it is now defined using `format_as()` machinery, so it's
`format()` method does not actually accept `std::string_view`, it
accepts `fmt::string_view`, as the former can be converted to
`fmt::string_view`.
this is why we can inherit from `fmt::formatter<std::string_view>` and
use `formatter<std::string_view>::format(foo, ctx);` to implement the
`format()` method with {fmt} v9, but we cannot do this with {fmt} v10,
and we would have following compilation failure:
```
FAILED: service/CMakeFiles/service.dir/RelWithDebInfo/topology_state_machine.cc.o
/home/kefu/.local/bin/clang++ -DFMT_DEPRECATED_OSTREAM -DFMT_SHARED -DSCYLLA_BUILD_MODE=release -DSEASTAR_API_LEVEL=7 -DSEASTAR_LOGGER_COMPILE_TIME_FMT -DSEASTAR_LOGGER_TYPE_STDOUT -DSEASTAR_SCHEDULING_GROUPS_COUNT=16 -DSEASTAR_SSTRING -DXXH_PRIVATE_API -DCMAKE_INTDIR=\"RelWithDebInfo\" -I/home/kefu/dev/scylladb -I/home/kefu/dev/scylladb/build/gen -I/home/kefu/dev/scylladb/seastar/include -I/home/kefu/dev/scylladb/build/seastar/gen/include -I/home/kefu/dev/scylladb/build/seastar/gen/src -ffunction-sections -fdata-sections -O3 -g -gz -std=gnu++20 -fvisibility=hidden -Wall -Werror -Wextra -Wno-error=deprecated-declarations -Wimplicit-fallthrough -Wno-c++11-narrowing -Wno-deprecated-copy -Wno-mismatched-tags -Wno-missing-field-initializers -Wno-overloaded-virtual -Wno-unsupported-friend -Wno-enum-constexpr-conversion -Wno-unused-parameter -ffile-prefix-map=/home/kefu/dev/scylladb=. -march=westmere -mllvm -inline-threshold=2500 -fno-slp-vectorize -U_FORTIFY_SOURCE -Werror=unused-result -MD -MT service/CMakeFiles/service.dir/RelWithDebInfo/topology_state_machine.cc.o -MF service/CMakeFiles/service.dir/RelWithDebInfo/topology_state_machine.cc.o.d -o service/CMakeFiles/service.dir/RelWithDebInfo/topology_state_machine.cc.o -c /home/kefu/dev/scylladb/service/topology_state_machine.cc
/home/kefu/dev/scylladb/service/topology_state_machine.cc:254:41: error: no matching member function for call to 'format'
254 | return formatter<std::string_view>::format(it->second, ctx);
| ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~^~~~~~
/usr/include/fmt/core.h:2759:22: note: candidate function template not viable: no known conversion from 'seastar::basic_sstring<char, unsigned int, 15>' to 'const fmt::basic_string_view<char>' for 1st argument
2759 | FMT_CONSTEXPR auto format(const T& val, FormatContext& ctx) const
| ^ ~~~~~~~~~~~~
```
because the inherited `format()` method actually comes from
`fmt::formatter<fmt::string_view>`. to reduce the confusion, in this
change, we just inherit from `fmt::format<string_view>`, where
`string_view` is actually `fmt::string_view`. this follows
the document at
https://fmt.dev/latest/api.html#formatting-user-defined-types,
and since there is less indirection under the hood -- we do not
use the specialization created by `FMT_FORMAT_AS` which inherit
from `formatter<fmt::string_view>`, hopefully this can improve
the compilation speed a little bit. also, this change addresses
the build failure with {fmt} v10.
Signed-off-by: Kefu Chai <kefu.chai@scylladb.com>
Closesscylladb/scylladb#18299
before this change, we rely on the default-generated fmt::formatter
created from operator<<, but fmt v10 dropped the default-generated
formatter.
in this change, we define formatters for `parition_entry::printer`,
and drop its operator<< .
Refs #13245
Signed-off-by: Kefu Chai <kefu.chai@scylladb.com>
Closesscylladb/scylladb#17812
To facilitate testing the state of cache after the update is preempted
at various points, pass a preemption_source& to update() instead of
calling the reactor directly.
In release builds, the calls to preemption_source methods should compile
to the same direct reactor calls as today. Only in dev mode they should
add an extra branch. (However, the `preemption_source&` argument has
to be shoveled in any mode).
Each partition_version is allowed to have a different schema now.
As of this patch, all versions reachable from a snapshot/entry always
have the same schema, but this will change in an upcoming patch.
This commit prepares merge_partition_versions() for that.
See code comments added in this patch for a detailed description.
The design chosen in this patch requires adding a bit of information to
partition_version. Due to alignment, it results in a regrettable waste of 8
bytes per partition. If we want, we can recover that in the future by squeezing
the bit into some free bit in other fields, for example the highest or lowest
bits of one of the pointers in partition_version.
After this patch, MVCC should be prepared for replacing the atomic schema
upgrade() of cache/memtable entries with a gentle upgrade().
An upcoming patch will enable multiple schemas within a single entry,
after the entry is upgraded.
partition_entry::squashed isn't prepared for that yet.
This patch prepares it.
operator<< accepts a schema& and a partition_entry&. But since the latter
now contains a reference to its schema inside, the former is redundant.
Remove it.
After adding a _schema field to each partition version,
the field in partition_snapshot is redundant. It can be always recovered
from the latest version. Remove it.
Currently, partition_version does not reference its schema.
All partition_version reachable from a entry/snapshot have the same schema,
which is referenced in memtable_entry/cache_entry/partition_snapshot.
To enable gentle schema upgrades, we want to use the existing background
version merging mechanism. To achieve that, we will move the schema reference
into partition_version, and we will allow neighbouring MVCC versions to have
different schemas, and we will merge them on-the-fly during reads and
persistently during background version merges.
This way, an upgrade will boil down to adding a new empty version with
the new schema.
This patch adds the _schema field to partition_version and propagates
the schema pointer to it from the version's containers (entry/snapshot).
Subsequent patches will remove the schema references from the containers,
because they are now redundant.
We don't have a convention for when to pass `schema_ptr` and and when to pass
`const schema&` around.
In general, IMHO the natural convention for such a situation is to pass the
shared pointer if the callee might extend the lifetime of shared_ptr,
and pass a reference otherwise. But we convert between them willy-nilly
through shared_from_this().
While passing a reference to a function which actually expects a shared_ptr
can make sense (e.g. due to the fact that smart pointers can't be passed in
registers), the other way around is rather pointless.
This patch takes one occurence of that and modifies the parameter to a reference.
Since enable_shared_from_this makes shared pointer parameters and reference
parameters interchangeable, this is a purely cosmetic change.
The comment refers to "other", but it means "pe". Fix that.
The patch also adds a bit of context to the mutation_partition jargon
("evictability" and "continuity"), by reminding how it relates
to the concrete abstractions: memtable and cache.
in C++20, compiler generate operator!=() if the corresponding
operator==() is already defined, the language now understands
that the comparison is symmetric in the new standard.
fortunately, our operator!=() is always equivalent to
`! operator==()`, this matches the behavior of the default
generated operator!=(). so, in this change, all `operator!=`
are removed.
in addition to the defaulted operator!=, C++20 also brings to us
the defaulted operator==() -- it is able to generated the
operator==() if the member-wise lexicographical comparison.
under some circumstances, this is exactly what we need. so,
in this change, if the operator==() is also implemented as
a lexicographical comparison of all memeber variables of the
class/struct in question, it is implemented using the default
generated one by removing its body and mark the function as
`default`. moreover, if the class happen to have other comparison
operators which are implemented using lexicographical comparison,
the default generated `operator<=>` is used in place of
the defaulted `operator==`.
sometimes, we fail to mark the operator== with the `const`
specifier, in this change, to fulfil the need of C++ standard,
and to be more correct, the `const` specifier is added.
also, to generate the defaulted operator==, the operand should
be `const class_name&`, but it is not always the case, in the
class of `version`, we use `version` as the parameter type, to
fulfill the need of the C++ standard, the parameter type is
changed to `const version&` instead. this does not change
the semantic of the comparison operator. and is a more idiomatic
way to pass non-trivial struct as function parameters.
please note, because in C++20, both operator= and operator<=> are
symmetric, some of the operators in `multiprecision` are removed.
they are the symmetric form of the another variant. if they were
not removed, compiler would, for instance, find ambiguous
overloaded operator '=='.
this change is a cleanup to modernize the code base with C++20
features.
Signed-off-by: Kefu Chai <kefu.chai@scylladb.com>
Closes#13687
Move mutation-related files to a new mutation/ directory. The names
are kept in the global namespace to reduce churn; the names are
unambiguous in any case.
mutation_reader remains in the readers/ module.
mutation_partition_v2.cc was missing from CMakeLists.txt; it's added in this
patch.
This is a step forward towards librarization or modularization of the
source base.
Closes#12788
