Previously this code would not have removed all members which it was
supposed to.
Also remove some now-redundant code from TypeIdentifier. RemoveIgnored
will take over the responsibility of removing members from classes.
Containers store references to ContainerInfos, so the ContainerInfos
must live beyond the stack they were created on. Use static variables
for simplicity.
We can catch these exceptions and print clearer failure messages.
Before:
unknown file: Failure
C++ exception with description "Invalid type for child" thrown in the test body.
After:
../test/type_graph_utils.cpp:44: Failure
Failed
Error parsing input graph: Invalid type for child
i.e. unions with non-POD members
We can't examine untagged unions, but we should be able to support
looking inside tagged unions at some point in the future.
TypeGraphParser parses a textual type graph, as emitted by Printer.
It also doubles as a way of ensuring that Printer displays all
information about a type graph, to aid with debugging.
Convert Flattener unit tests over to this new framework as a first step.
Summary:
Stubbing tuple without alignment info can cause failures. I added a test
case for this which failed before this fix but works now.
Test Plan:
Ran the test.
Use fully qualified names to determine if a class is really the child of
our type. It may be that it is the child of another type with an
identical name in another namespace.
Pass-through-types represent classes to be turned into containers. We
don't want these to turn these containers into Dummy's on a second run
of TypeIdentifier.
This will eventually be used to enable running with Tree Builder v2.
For now, when it is disabled it puts CodeGen v2 into compatibility mode,
disabling features which weren't present in CodeGen v1 so that its
output can be understood by Tree Builder v1.
These aren't used for anything yet, but should be useful for stable IDs
when printing nodes before and after passes and for faster cycle
detection than the current map of pointers.
As we now store ContainerInfo objects in OICodeGen::Config, we can not
copy it any more. Change all places that took copies to take const
references instead.
The copy in OICodeGen modified membersToStub, the contents of which form
part of OICache's hash. However, as OICache also previously had its own
copy, it would not have been OICodeGen's modifications.
- Change member and parent offsets to work in bits, not bytes
- Printer still displays offsets in bytes, with decimals when using
bitfields
- AddPadding: Don't pad bitfields
- CodeGen: Emit code for bitfields
For std::vector and std::list, template parameters are not required to
be defined before they can be used. Delay sorting them until the end.
Also fix a CodeGen bug where we were defining typedefs in the middle of
the forward declarations. They only need to be defined when other types
are defined.
These represent types which don't store any interesting data for us to
measure, but which are required by a real container so can not be
replaced with our own generated class types.
std::allocator often has bad DWARF, so it must be replaced after the
DWARF is fixed up in Flattener. The others could be replaced earlier in
the transformation process if desired, but I've left them all together
for simplicity for now.
This fixes the folly::fbstring tests.
CTest can't forward command line arguments to the test runner, so add
the option to using an environment variable to enable features instead.
CMake issue tracking the feature that would have been needed:
https://gitlab.kitware.com/cmake/cmake/-/issues/20470
Tests which aren't passing yet have been disabled in CI.
We want to use the fully qualified name for scoped enums to keep the C++
compiler happy. When a parameter expects an enum value, we must supply
an enum value and not its underlying integer value.
Before:
isset_bitset<1, 0>
After:
isset_bitset<1, apache::thrift::detail::IssetBitsetOption::Unpacked>
Multi dimensional arrays are not flattened into 1-D arrays when using
TypeGraph. Update TreeBuilder to account for this.
By not flattening arrays, we are able to produce more descriptive
results.
The disadvantage is that we must now recurse inside arrays
containing only primitives. A better solution to requiring flattening
would be the planned work to not recurse into any static types (not just
primitives). This would also apply to multi-dimensional arrays of
primtivies.
When we were previously removing allocators, we were only able to work
with containers whose allocators appeared as their last template
parameter.
Now we can replace allocators in the middle of a parameter list.
This fixes tests for folly::sorted_vector_set.
This is necessary when replacing the allocator of a map type, for
example.
`std::map<int, int>` will need an allocator which allocates elements of
type `std::pair<const int, int>>`
std::basic_string takes three template parameters:
1. CharT
2. Traits
3. Allocator
The Traits parameter was causing issues, as it requires a type which
exposes certain things, e.g. `Traits::value_type`.
We have a few options to resolve this:
1. Remove this parameter, as we do for allocators
Cons: removing a template parameter doesn't work if other
parameters appear after it
2. Stub this parameter, as we do for hashers/comparators
Cons: we need to hardcode an implementation that satisfies the
`Traits::value_type` requirements
3. Leave the parameter as-is
Cons: will not work if a non-standard Traits is used
By using the real implementation of this Traits parameter
(normally `std::char_traits<CharT>`), we get one that we know will
work as long as it is defined in a stdlib header.
Option 3 is what we use in this patch. Instead of adding more
configuration options to the container TOML file format (e.g.
`params_to_keep = [1]`), we add `std::char_traits` as a dummy
container type. Now, whenever `std::char_traits` appears, it will be
left as-is, i.e. not removed, replaced or reverse-engineered.
This is the same approach previously used for Thrift's isset_bitset.
This fixes linker errors in debug builds.
When building in debug mode (-DCMAKE_BUILD_TYPE=Debug), folly requires
the function "safe_assert_terminate" to be defined. To avoid building
and linking against folly, we define our own no-op version of this
function.
uint64_t is a typedef. int is a primitive.
The cycles tests are going to be re-used to underpin some type-graph
unit tests. The patch removes unnecessary typedefs and makes the unit
tests simpler.
Previously, we treated weak_ptrs as normal types and we recursed
within them, following the internal data pointer and possibly causing
crashes. We really shouldn't be following them, so I added a custom
type to simply abort processing. If we want to handle them (ie: check
if they are valid, and follow them if so), that should be fairly easy
with the work there is here so far.
Instead of using an environment variable, pass the path to the config
file as a command line argument. This makes it possible to directly
copy the command being run (as show with --verbose) and run it in a
debugger outside of the test framework.
Old verbose output:
Running: /home/ajor/src/object-introspection3/build/test/integration/integration_test_target oil cycles_unique_ptr
New verbose output:
Running: /home/ajor/src/object-introspection3/build/test/integration/integration_test_target oil cycles_unique_ptr /home/ajor/src/object-introspection3/build/testing.oid.toml