* support for grpc golang
* refactored grpc go generator
* added grpc-go test and refactored
* refactored idl_gen_grpc.cpp
* fixed grpc generate method name
* refactored flatc and fixed line length issue
* added codec to go lib and fixed formatting issues
* fixed spacing issues
* Java: emit "signed" equivalent of unsigned default value in generated code and add "L" suffix to long default value.
* Updated generated code
* Only convert ulong to "signed" equivalent. ubyte and ushort don't need specific handling as "user facing" type is int. uint need 'L' suffix as "user facing" type is long.
* Added missing cast to primitive type of default value which is in "user facing" type in builder.add<type>() calls.
* Do not cast default value to actual type in C#.
Also fixed most codegenerators using the wrong namespace when multiple
namespace were used in a file, with some files not being generated.
Change-Id: Ib42969221239d7244e431cbd667ef69200fc415f
Tested: on Linux.
Bug: 29338474
A previous commit that added "f" for C++/Java/C# would break
on gcc of constants like 3f, which are now output as 3.0f
Tested: on Linux
Change-Id: If9cabbe3c6d6948a5050b8b123bda9c06e181f52
Currently in order to get a value type of [ubyte] in PHP, iteration is
necessary which is not efficient. Helper __vector_as_bytes has been
implemented in order to return the byte arrays in PHP efficiently.
Appropriate methods also been added to use aforementioned method to return
the byte array. (e.g. get*Bytes()).
The reason the methods are named get*Bytes() and not for instance
get*ByteArray() is the fact that PHP doesn't support byte arrays and the
binary safe string implementation in PHP is used to simulate byte arrays
and since there is chance for PHP users to confuse this with PHP arrays
the name get*Bytes() has been chosen.
In the future __vector_as_bytebuffer() method can also be implemented to
return PHP implementation of ByteBuffer.
I updated idl_gen_general.cpp to add support for generating a Get Bytes
method for a vector to the generated C# source code. Given a byte vector
field named Foo, a method named GetFooBytes() will be generated in the
C# source code that will return an ArraySegment<byte> value referencing
the vector data in the underlying ByteBuffer.
I added a method to Table.cs named __vector_as_arraysegment that is used
by the code generated by the change to the C# generator.
__vector_as_arraysegment will take the offset of the vector and will
return the ArraySegment<byte> value corresponding to the bytes that
store the vector data.
I updated FlatBuffersExampleTests.cs to add tests to validate my
implementation of Table.__vector_as_arraysegment. I added tests to
demonstrate that the bytes for the monster's name can be extracted from
the underlying byte array. I also added tests to show that
Table.__vector_as_arraysegment returns a null value if the vector is not
present in the FlatBuffer.
I used the updated flatc.exe program to regenerate the C# source files
for the MyGame example. The new Monster class includes the GetXXXBytes
methods to return the byte arrays containing data for vectors.
Fixes a bug where the logic to determine when to use a C# enum flags
both enums and vectors of enums. This causes the C# generator to
generate code that doesn't compile for tables that contain vectors of
enums.
The fix also consolidates type generation functions a bit and adds
some additional casting functions for clarity.
* codegen for all basic features: WIP (probably implemented all basic feature)
* JSON parsing: NO
* Simple mutation: NO
* Reflection: NO
* Buffer verifier: NO (will be add later)
* Testing: basic: Yes
* Testing: fuzz: Yes
* Performance: Not bad
* Platform: Supported Linux, OS X, Windows (has 32bit integer limitation)
* Engine Unity: No
flatc --php monster_test.fbs
<?php
//include neccessary files.
$fbb = new Google\FlatBuffers\FlatBufferBuilder(1);
$str = $fbb->createString("monster");
\MyGame\Example\Monster::startMonster($fbb);
\MyGame\Example\Monster::addHp($fbb, 80);
\MyGame\Example\Monster::addName($fbb, $str);
$mon = \MyGame\Example\Monster::endMonster($fbb);
$fbb->finish($mon);
echo $fbb->sizedByteArray();
PHP 5.4 higher
Currently, we do not register this library to packagist as still experimental and versioning problem.
If you intended to use flatbuffers with composer. add repostiories section to composer.json like below.
"repositories": [{
"type": "vcs",
"url": "https://github.com/google/flatbuffers"
}],
and just put google/flatbuffers.
"require": {
"google/flatbuffers": "*"
}
* PHP's integer is platform dependant. we strongly recommend use 64bit machine
and don't use uint, ulong types as prevent overflow issue.
ref: http://php.net/manual/en/language.types.integer.php
* php don't support float type. floating point numbers are always parsed as double precision internally.
ref: http://php.net/manual/en/language.types.float.php
* ByteBuffer is little bit slow implemnentation due to many chr/ord function calls. Especially encoding objects.
This is expected performance as PHP5 has parsing arguments overhead. probably we'll add C-extension.
Basically, PHP implementation respects Java and C# implementation.
Note: ByteBuffer and FlatBuffersBuilder class are not intended to use other purposes.
we may change internal API foreseeable future.
PSR-2, PSR-4 standards.
Implemented simple assertion class (respect JavaScript testcase implementation) as we prefer small code base.
this also keeps CI iteration speed.
we'll choose phpunit or something when the test cases grown.
When creating a CreateXxx(...) method for a simple table type,
enum-type fields with a non-zero default must have an explicit
cast for the respective argument default value, because in C#,
there is an implicit cast from int to an enum only for 0.
Also, added an example of such type into the example monster_test
type, so that we test this feature.
Implement code generation and self-contained runtime library for Python.
The test suite verifies:
- Correctness of generated Python code by comparing output to that of
the other language ports.
- The exact bytes in the Builder buffer during many scenarios.
- Vtable deduplication correctness.
- Edge cases for table construction, via a fuzzer derived from the Go
implementation.
- All code is simultaneously valid in Python 2.6, 2.7, and 3.4.
The test suite includes benchmarks for:
- Building 'gold' data.
- Parsing 'gold' data.
- Deduplicating vtables.
All tests pass on this author's system for the following Python
implementations:
- CPython 2.6.7
- CPython 2.7.8
- CPython 3.4.2
- PyPy 2.5.0 (CPython 2.7.8 compatible)
