Commit 9b4eafcaf4 added creattion of a directory to reserve TAP test
ports at the top of the build tree. In a non-vpath build this means at
the top of the source tree, so it needs to be added to .gitignore.
As suggested by Michael Paquier
Backpatch to all live branches.
This commit introduces the ability to actually generate code using
LLVM. In particular, this adds:
- Ability to emit code both in heavily optimized and largely
unoptimized fashion
- Batching facility to allow functions to be defined in small
increments, but optimized and emitted in executable form in larger
batches (for performance and memory efficiency)
- Type and function declaration synchronization between runtime
generated code and normal postgres code. This is critical to be able
to access struct fields etc.
- Developer oriented jit_dump_bitcode GUC, for inspecting / debugging
the generated code.
- per JitContext statistics of number of functions, time spent
generating code, optimizing, and emitting it. This will later be
employed for EXPLAIN support.
This commit doesn't yet contain any code actually generating
functions. That'll follow in later commits.
Documentation for GUCs added, and for JIT in general, will be added in
later commits.
Author: Andres Freund, with contributions by Pierre Ducroquet
Testing-By: Thomas Munro, Peter Eisentraut
Discussion: https://postgr.es/m/20170901064131.tazjxwus3k2w3ybh@alap3.anarazel.de
By just running lcov on the produced .gcda data files, we don't account
for source files that are not touched by tests at all. To fix that, run
lcov --initial to create a base line info file with all zero counters,
and merge that with the actual counters when creating the final report.
Reviewed-by: Michael Paquier <michael.paquier@gmail.com>
This is the way lcov was intended to be used. It is much faster and
more robust and makes the makefiles simpler than running it in each
subdirectory.
The previous coding ran gcov before lcov, but that is useless because
lcov/geninfo call gcov internally and use that information. Moreover,
this led to complications and failures during parallel make. This
separates the two targets: You either use "make coverage" to get
textual output from gcov or "make coverage-html" to get an HTML report
via lcov. (Using both is still problematic because they write the same
output files.)
Reviewed-by: Michael Paquier <michael.paquier@gmail.com>
Before, make check-world would create a new temporary installation for
each test suite, which is slow and wasteful. Instead, we now create one
test installation that is used by all test suites that are part of a
make run.
The management of the temporary installation is removed from pg_regress
and handled in the makefiles. This allows for better control, and
unifies the code with that of test suites not run through pg_regress.
review and msvc support by Michael Paquier <michael.paquier@gmail.com>
more review by Fabien Coelho <coelho@cri.ensmp.fr>
This will hopefully be easier to use than pg_config for users who are
already used to the pkg-config interface. It also works better for
multi-arch installations.
reviewed by Tom Lane
Tom Lane