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5 Commits

Author SHA1 Message Date
505ec2fb6a Fix CreateVector/CreateVectorOfStructs for non-std vector types (cpp_vec_type)
When cpp_vec_type is set to a non-std container, Pack methods for scalar,
bool, and plain-struct vectors now use the pointer+size overloads of
CreateVector/CreateVectorOfStructs instead of the std::vector-only overloads.
Extends the combined cpp_vec_type+native_type test to also cover scalar
(ubyte) vectors with a custom container type.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-05-09 20:48:32 +02:00
19aa2ce420 Fix CreateVectorOfNativeStructs for non-std vector types (cpp_vec_type + native_type)
When a field combines cpp_vec_type (e.g. eastl::vector) with native_type on a
struct, the generated Pack method now uses the pointer+size overload of
CreateVectorOfNativeStructs instead of the std::vector overload, which only
accepts std::vector. Adds a dedicated test covering the combined attribute case.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-05-09 20:35:36 +02:00
35665b5ae7 Add cpp_vec_type attribute for object API vector customization
Mirrors cpp_str_type and cpp_ptr_type: a per-field cpp_vec_type attribute
lets users substitute any std::vector-compatible container in generated
T-structs, and --cpp-vec-type sets the global default.

NativeVector() resolves the attribute (falling back to the global option,
then std::vector). Changes applied to GenTypeNative, GenMember, GenParam
(CreateDirect), and the CreateVectorOfStrings fast-path guard.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-05-09 19:55:26 +02:00
9e9f5bbfcf Fix field-level native_type for vector pack and CreateTable args
Complete field-level native_type/native_type_pack_name support in C++
codegen by fixing two remaining locations that only checked struct-level
attributes: vector-of-structs packing and CreateTable argument passing.
Add tests with a struct lacking struct-level native_type to verify
field-level attributes work end-to-end.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
2026-05-09 15:47:07 +02:00
4edfa03ffc native_type and native_inline on fields 2026-05-09 12:23:35 +02:00
282 changed files with 19994 additions and 27273 deletions

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@@ -1,6 +0,0 @@
version: 2
updates:
- package-ecosystem: "github-actions"
directory: "/"
schedule:
interval: "weekly"

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@@ -42,7 +42,7 @@ jobs:
chmod +x flatc
./flatc --version
- name: upload build artifacts
uses: actions/upload-artifact@v7
uses: actions/upload-artifact@v4
with:
name: Linux flatc binary ${{ matrix.cxx }}
path: flatc
@@ -51,7 +51,7 @@ jobs:
if: startsWith(github.ref, 'refs/tags/')
run: zip Linux.flatc.binary.${{ matrix.cxx }}.zip flatc
- name: Release zip file
uses: softprops/action-gh-release@v3
uses: softprops/action-gh-release@v2
if: startsWith(github.ref, 'refs/tags/')
with:
files: Linux.flatc.binary.${{ matrix.cxx }}.zip
@@ -170,7 +170,7 @@ jobs:
- name: test
run: Release\flattests.exe
- name: upload build artifacts
uses: actions/upload-artifact@v7
uses: actions/upload-artifact@v4
with:
name: Windows flatc binary
path: Release\flatc.exe
@@ -179,7 +179,7 @@ jobs:
if: startsWith(github.ref, 'refs/tags/')
run: move Release/flatc.exe . && Compress-Archive flatc.exe Windows.flatc.binary.zip
- name: Release binary
uses: softprops/action-gh-release@v3
uses: softprops/action-gh-release@v2
if: startsWith(github.ref, 'refs/tags/')
with:
files: Windows.flatc.binary.zip
@@ -191,7 +191,7 @@ jobs:
build-dotnet-windows:
name: Build .NET Windows
runs-on: windows-2022
runs-on: windows-2022-64core
strategy:
matrix:
configuration: [
@@ -246,7 +246,7 @@ jobs:
chmod +x Release/flatc
Release/flatc --version
- name: upload build artifacts
uses: actions/upload-artifact@v7
uses: actions/upload-artifact@v4
with:
name: Mac flatc binary Intel
path: Release/flatc
@@ -255,7 +255,7 @@ jobs:
if: startsWith(github.ref, 'refs/tags/')
run: mv Release/flatc . && zip MacIntel.flatc.binary.zip flatc
- name: Release binary
uses: softprops/action-gh-release@v3
uses: softprops/action-gh-release@v2
if: startsWith(github.ref, 'refs/tags/')
with:
files: MacIntel.flatc.binary.zip
@@ -289,7 +289,7 @@ jobs:
chmod +x Release/flatc
Release/flatc --version
- name: upload build artifacts
uses: actions/upload-artifact@v7
uses: actions/upload-artifact@v4
with:
name: Mac flatc binary Universal
path: Release/flatc
@@ -298,7 +298,7 @@ jobs:
if: startsWith(github.ref, 'refs/tags/')
run: mv Release/flatc . && zip Mac.flatc.binary.zip flatc
- name: Release binary
uses: softprops/action-gh-release@v3
uses: softprops/action-gh-release@v2
if: startsWith(github.ref, 'refs/tags/')
with:
files: Mac.flatc.binary.zip
@@ -314,7 +314,7 @@ jobs:
steps:
- uses: actions/checkout@v6
- name: set up Java
uses: actions/setup-java@v5
uses: actions/setup-java@v4
with:
distribution: temurin
java-version: 17
@@ -373,7 +373,7 @@ jobs:
- name: Run benchmarks
run: ./flatbenchmark --benchmark_repetitions=5 --benchmark_display_aggregates_only=true --benchmark_out_format=console --benchmark_out=benchmarks/results_${{matrix.cxx}}
- name: Upload benchmarks results
uses: actions/upload-artifact@v7
uses: actions/upload-artifact@v4
with:
name: Linux flatbenchmark results ${{matrix.cxx}}
path: benchmarks/results_${{matrix.cxx}}
@@ -394,7 +394,7 @@ jobs:
- name: Checkout
uses: actions/checkout@v6
- name: set up Java
uses: actions/setup-java@v5
uses: actions/setup-java@v4
with:
distribution: temurin
java-version: 17
@@ -417,7 +417,7 @@ jobs:
- name: Checkout
uses: actions/checkout@v6
- name: set up Java
uses: actions/setup-java@v5
uses: actions/setup-java@v4
with:
distribution: temurin
java-version: 17
@@ -446,7 +446,7 @@ jobs:
build-rust-windows:
name: Build Rust Windows
runs-on: windows-2022
runs-on: windows-2022-64core
steps:
- uses: actions/checkout@v6
- name: test
@@ -495,7 +495,7 @@ jobs:
name: Test Swift Linux
strategy:
matrix:
swift: ["6.0", "6.1", "6.2"]
swift: ["5.10", "6.1", "6.2"]
runs-on: ubuntu-24.04
steps:
- uses: actions/checkout@v6
@@ -534,7 +534,7 @@ jobs:
run: |
swift sdk list
swift build --build-tests --swift-sdk swift-6.2.1-RELEASE_wasm
wasmtime --dir . .build/wasm32-unknown-wasip1/debug/FlatBuffers.Test.Swift.WasmPackageTests.xctest --testing-library swift-testing
wasmtime --dir . .build/wasm32-unknown-wasip1/debug/FlatBuffers.Test.Swift.WasmPackageTests.xctest
build-ts:
name: Build TS
@@ -545,7 +545,7 @@ jobs:
# FIXME: make test script not rely on flatc
run: cmake -G "Unix Makefiles" -DCMAKE_BUILD_TYPE=Release -DFLATBUFFERS_BUILD_TESTS=OFF -DFLATBUFFERS_INSTALL=OFF -DFLATBUFFERS_BUILD_FLATLIB=OFF -DFLATBUFFERS_BUILD_FLATHASH=OFF . && make -j
- name: pnpm
run: npm install -g pnpm
run: npm install -g pnpm esbuild
- name: deps
run: pnpm i
- name: compile

View File

@@ -21,11 +21,11 @@ jobs:
run: |
git config user.name github-actions[bot]
git config user.email 41898282+github-actions[bot]@users.noreply.github.com
- uses: actions/setup-python@v6
- uses: actions/setup-python@v5
with:
python-version: 3.x
- run: echo "cache_id=$(date --utc '+%V')" >> $GITHUB_ENV
- uses: actions/cache@v5
- uses: actions/cache@v4
with:
key: mkdocs-material-${{ env.cache_id }}
path: .cache

View File

@@ -27,7 +27,7 @@ jobs:
language: c++
fuzz-seconds: 60
- name: Upload Crash
uses: actions/upload-artifact@v7
uses: actions/upload-artifact@v4
if: failure() && steps.build.outcome == 'success'
with:
name: artifacts

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@@ -13,7 +13,7 @@ jobs:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v6
- uses: actions/setup-node@v6
- uses: actions/setup-node@v3
with:
node-version: '20.x'
registry-url: 'https://registry.npmjs.org'
@@ -30,7 +30,7 @@ jobs:
working-directory: ./python
steps:
- uses: actions/checkout@v6
- uses: actions/setup-python@v6
- uses: actions/setup-python@v4
with:
python-version: '3.10'

View File

@@ -240,6 +240,9 @@ set(FlatBuffers_Tests_SRCS
tests/vector_table_naked_ptr_test.cpp
tests/native_type_test_impl.h
tests/native_type_test_impl.cpp
tests/cpp_vec_type_test_impl.h
tests/cpp_vec_type_native_type_test_impl.h
tests/cpp_vec_type_native_type_test_impl.cpp
tests/alignment_test.h
tests/alignment_test.cpp
tests/64bit/offset64_test.h
@@ -554,12 +557,13 @@ if(FLATBUFFERS_BUILD_TESTS)
compile_schema_for_test(tests/arrays_test.fbs "${FLATC_OPT_SCOPED_ENUMS}")
compile_schema_for_test(tests/native_inline_table_test.fbs "${FLATC_OPT_COMP}")
compile_schema_for_test(tests/native_type_test.fbs "${FLATC_OPT_COMP}")
compile_schema_for_test(tests/cpp_vec_type_test.fbs "${FLATC_OPT_COMP}")
compile_schema_for_test(tests/cpp_vec_type_native_type_test.fbs "${FLATC_OPT_COMP}")
compile_schema_for_test(tests/key_field/key_field_sample.fbs "${FLATC_OPT_COMP}")
compile_schema_for_test(tests/64bit/test_64bit.fbs "${FLATC_OPT_COMP};--bfbs-gen-embed")
compile_schema_for_test(tests/64bit/evolution/v1.fbs "${FLATC_OPT_COMP}")
compile_schema_for_test(tests/64bit/evolution/v2.fbs "${FLATC_OPT_COMP}")
compile_schema_for_test(tests/union_underlying_type_test.fbs "${FLATC_OPT_SCOPED_ENUMS}")
compile_schema_for_test(tests/cross_namespace_pack_test.fbs "${FLATC_OPT_COMP}")
if(FLATBUFFERS_CODE_SANITIZE)
add_fsanitize_to_target(flattests ${FLATBUFFERS_CODE_SANITIZE})

View File

@@ -23,7 +23,7 @@ bazel_dep(
)
bazel_dep(
name = "grpc",
version = "1.76.0",
version = "1.70.1",
repo_name = "com_github_grpc_grpc",
)
bazel_dep(
@@ -49,7 +49,7 @@ bazel_dep(
)
bazel_dep(
name = "rules_swift",
version = "3.1.2",
version = "2.1.1",
max_compatibility_level = 3,
repo_name = "build_bazel_rules_swift",
)
@@ -63,6 +63,9 @@ npm.npm_translate_lock(
name = "flatbuffers_npm",
npmrc = "//:.npmrc",
pnpm_lock = "//ts:pnpm-lock.yaml",
# Override the Bazel package where pnpm-lock.yaml is located and link
# to the specified package instead.
root_package = "ts",
verify_node_modules_ignored = "//:.bazelignore",
)
use_repo(npm, "flatbuffers_npm")

View File

@@ -1,4 +1,4 @@
// swift-tools-version:6.0
// swift-tools-version:5.10
/*
* Copyright 2020 Google Inc. All rights reserved.
*
@@ -36,17 +36,14 @@ let package = Package(
.target(
name: "FlatBuffers",
dependencies: ["Common"],
path: "swift/Sources/FlatBuffers",
swiftSettings: .settings),
path: "swift/Sources/FlatBuffers"),
.target(
name: "FlexBuffers",
dependencies: ["Common"],
path: "swift/Sources/FlexBuffers",
swiftSettings: .settings),
path: "swift/Sources/FlexBuffers"),
.target(
name: "Common",
path: "swift/Sources/Common",
swiftSettings: .settings),
path: "swift/Sources/Common"),
.testTarget(
name: "FlatbuffersTests",
dependencies: .dependencies,
@@ -55,14 +52,7 @@ let package = Package(
name: "FlexbuffersTests",
dependencies: ["FlexBuffers"],
path: "tests/swift/Tests/Flexbuffers"),
],
swiftLanguageModes: [.v6])
extension Array where Element == SwiftSetting {
static var settings: [SwiftSetting] {
[.enableUpcomingFeature("ExistentialAny")]
}
}
])
extension Array where Element == Package.Dependency {
static var dependencies: [Package.Dependency] {
@@ -70,12 +60,7 @@ extension Array where Element == Package.Dependency {
[]
#else
// Test only Dependency
[
.package(url: "https://github.com/grpc/grpc-swift-2.git", from: "2.0.0"),
.package(
url: "https://github.com/grpc/grpc-swift-nio-transport.git",
from: "2.0.0"),
]
[.package(url: "https://github.com/grpc/grpc-swift.git", from: "1.4.1")]
#endif
}
}
@@ -87,10 +72,7 @@ extension Array where Element == PackageDescription.Target.Dependency {
#else
// Test only Dependency
[
.product(name: "GRPCCore", package: "grpc-swift-2"),
.product(
name: "GRPCNIOTransportHTTP2",
package: "grpc-swift-nio-transport"),
.product(name: "GRPC", package: "grpc-swift"),
"FlatBuffers",
]
#endif

View File

@@ -5,7 +5,7 @@ import 'types.dart';
/// The main builder class for creation of a FlexBuffer.
class Builder {
ByteData _buffer;
final ByteData _buffer;
List<_StackValue> _stack = [];
List<_StackPointer> _stackPointers = [];
int _offset = 0;
@@ -506,7 +506,6 @@ class Builder {
if (prevSize < size) {
final newBuf = ByteData(size);
newBuf.buffer.asUint8List().setAll(0, _buffer.buffer.asUint8List());
_buffer = newBuf;
}
return newOffset;
}

View File

@@ -318,21 +318,6 @@ void main() {
1,
]);
}
{
// Default buffer is 2048 bytes, add 2300 bytes of strings that force it
// to grow.
final s1 = 'A' * 1000;
final s2 = 'B' * 800;
final s3 = 'C' * 500;
var flx = Builder()
..startVector()
..addString(s1)
..addString(s2)
..addString(s3)
..end();
expect(flx.finish().length, 2323);
}
});
test('build map', () {

View File

@@ -57,7 +57,7 @@ a `char *` array, which you pass to `GetMonster()`.
```cpp
#include "flatbuffers/flatbuffers.h"
#include "monster_test_generated.h"
#include "monster_test_generate.h"
#include <iostream> // C++ header file for printing
#include <fstream> // C++ header file for file access

View File

@@ -97,61 +97,6 @@ convenient accessors for all fields, e.g. `hp()`, `mana()`, etc:
*Note: That we never stored a `mana` value, so it will return the default.*
## Fallible API and Custom Allocators
Every `FlatBufferBuilder` method that may allocate has a `try_*` counterpart
(e.g. `try_create_string`, `try_push`, `try_finish`) that returns
`Result<T, A::Error>` instead of panicking. This is useful when allocation
failures must be handled gracefully: for example in `no_std` environments or
with fixed-capacity buffers.
The existing panicking methods are unchanged and remain the simplest option
when using the default allocator.
#### Custom allocators
Implement the `Allocator` trait and pass it to `FlatBufferBuilder::new_in()`:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~{.rs}
use flatbuffers::{Allocator, FlatBufferBuilder};
struct MyAllocator { /* ... */ }
unsafe impl Allocator for MyAllocator {
type Error = MyError;
fn grow_downwards(&mut self) -> Result<(), Self::Error> { /* ... */ }
fn len(&self) -> usize { /* ... */ }
}
let alloc = MyAllocator::new(/* ... */);
let mut builder = FlatBufferBuilder::new_in(alloc);
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
The built-in `DefaultAllocator` uses `Vec<u8>` and sets `Error = Infallible`,
so the `try_*` methods on a default builder can never fail.
#### Example: building a buffer with error propagation
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~{.rs}
fn build<A: flatbuffers::Allocator>(
builder: &mut FlatBufferBuilder<A>,
) -> Result<(), A::Error> {
let name = builder.try_create_string("Orc")?;
let inventory = builder.try_create_vector(&[0u8, 1, 2, 3, 4])?;
let table_start = builder.start_table();
builder.try_push_slot_always(Monster::VT_NAME, name)?;
builder.try_push_slot_always(Monster::VT_INVENTORY, inventory)?;
builder.try_push_slot(Monster::VT_HP, 80i16, 100)?;
let root = builder.try_end_table(table_start)?;
builder.try_finish(root, None)?;
Ok(())
}
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
See the `FlatBufferBuilder` rustdoc for the full list of `try_*` methods.
## Direct memory access
As you can see from the above examples, all elements in a buffer are
@@ -260,47 +205,6 @@ And example of usage, for the time being, can be found in
- Safe getters in [SafeBuffer](https://docs.rs/flatbuffers-reflection/latest/flatbuffers_reflection/struct.SafeBuffer.html),
which does verification when constructed so you can use it for any data source
## Buffer pre allocation in a latency-sensitive context
In latency-sensitive applications, dynamic memory allocations can introduce unpredictable latency spikes. The `FlatBufferBuilder` internally uses several `Vec`s that may reallocate during serialization:
- The backing buffer for the FlatBuffer data
- `field_locs` for tracking field locations within tables
- `written_vtable_revpos` for deduplicating vtables
- `strings_pool` for shared string interning
To avoid allocations during serialization, you can preallocate all internal vectors upfront using the `with_internal_capacity` constructor:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~{.rs}
// Preallocate: 1KB buffer, 8 field locations, 16 vtables, 32 shared strings
let mut builder = FlatBufferBuilder::with_internal_capacity(1024, 8, 16, 32);
// All subsequent operations will not allocate (if capacities are sufficient)
let name = builder.create_shared_string("MyMonster");
// ... build your FlatBuffer ...
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
There are three variants available:
- `with_internal_capacity(size, field_locs, vtables, strings)` - Creates a new builder with all capacities preallocated
- `from_vec_with_internal_capacity(buffer, field_locs, vtables, strings)` - Reuses an existing `Vec<u8>` as the backing buffer
- `new_in_with_internal_capacity(allocator, field_locs, vtables, strings)` - Uses a custom `Allocator` with preallocated internal vecs
When combined with `reset()`, you can reuse the same builder across multiple serializations without any allocations after the initial setup:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~{.rs}
let mut builder = FlatBufferBuilder::with_internal_capacity(1024, 8, 16, 32);
loop {
// Build a FlatBuffer (allocation-free if capacities are sufficient)
let data = build_message(&mut builder);
send(data);
// Reset for reuse - clears state but retains allocated capacity
builder.reset();
}
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
## Useful tools created by others
* [flatc-rust](https://github.com/frol/flatc-rust) - FlatBuffers compiler

View File

@@ -427,6 +427,9 @@ Current understood attributes:
it won't be accessible anymore by newer code. Note that if you deprecate a
field that was previous required, old code may fail to validate new data (when
using the optional verifier).
### `required`
- `required` (on a non-scalar table field): this field must always be set. By
default, fields do not need to be present in the binary. This is desirable, as
it helps with forwards/backwards compatibility, and flexibility of data

View File

@@ -26,7 +26,7 @@ Simple mutation | Yes | Yes | Yes | Yes | No | No
Reflection | Yes | No | No | No | No | No | No | Basic | No | No | No | No | No
Buffer verifier | Yes | No | No | No | No | No | No | Yes | No | No | No | No | Yes
Native Object API | Yes | No | Yes | Yes | Yes | Yes | Yes | No | No | Yes | No | No | Yes
Optional Scalars | Yes | Yes | Yes | Yes | No | Yes | Yes | Yes | No | No | Yes | Yes | Yes
Optional Scalars | Yes | Yes | Yes | No | No | Yes | Yes | Yes | No | No | Yes | Yes | Yes
Flexbuffers | Yes | Yes | ? | ? | ? | ? | ? | ? | ? | ? | ? | Yes | Yes
Testing: basic | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | ? | Yes | Yes | Yes | Yes
Testing: fuzz | Yes | No | No | Yes | Yes | No | No | No | ? | No | No | Yes | No

View File

@@ -1,322 +1,297 @@
// automatically generated by the FlatBuffers compiler, do not modify
// @generated
extern crate alloc;
#[allow(unused_imports, dead_code)]
pub mod flatbuffers {
extern crate alloc;
#[allow(unused_imports, dead_code)]
pub mod goldens {
extern crate alloc;
extern crate alloc;
#[allow(unused_imports, dead_code)]
pub mod goldens {
pub enum GalaxyOffset {}
extern crate alloc;
#[derive(Copy, Clone, PartialEq)]
pub struct Galaxy<'a> {
pub _tab: ::flatbuffers::Table<'a>,
}
pub enum GalaxyOffset {}
#[derive(Copy, Clone, PartialEq)]
impl<'a> ::flatbuffers::Follow<'a> for Galaxy<'a> {
type Inner = Galaxy<'a>;
pub struct Galaxy<'a> {
pub _tab: ::flatbuffers::Table<'a>,
}
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
Self { _tab: unsafe { ::flatbuffers::Table::new(buf, loc) } }
}
}
impl<'a> ::flatbuffers::Follow<'a> for Galaxy<'a> {
type Inner = Galaxy<'a>;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
Self { _tab: unsafe { ::flatbuffers::Table::new(buf, loc) } }
}
}
impl<'a> Galaxy<'a> {
pub const VT_NUM_STARS: ::flatbuffers::VOffsetT = 4;
impl<'a> Galaxy<'a> {
pub const VT_NUM_STARS: ::flatbuffers::VOffsetT = 4;
#[inline]
pub unsafe fn init_from_table(table: ::flatbuffers::Table<'a>) -> Self {
Galaxy { _tab: table }
}
#[allow(unused_mut)]
pub fn create<'bldr: 'args, 'args: 'mut_bldr, 'mut_bldr, A: ::flatbuffers::Allocator + 'bldr>(
_fbb: &'mut_bldr mut ::flatbuffers::FlatBufferBuilder<'bldr, A>,
args: &'args GalaxyArgs
) -> ::flatbuffers::WIPOffset<Galaxy<'bldr>> {
let mut builder = GalaxyBuilder::new(_fbb);
builder.add_num_stars(args.num_stars);
builder.finish()
}
#[inline]
pub unsafe fn init_from_table(table: ::flatbuffers::Table<'a>) -> Self {
Galaxy { _tab: table }
}
#[allow(unused_mut)]
pub fn create<'bldr: 'args, 'args: 'mut_bldr, 'mut_bldr, A: ::flatbuffers::Allocator + 'bldr>(
_fbb: &'mut_bldr mut ::flatbuffers::FlatBufferBuilder<'bldr, A>,
args: &'args GalaxyArgs
) -> ::flatbuffers::WIPOffset<Galaxy<'bldr>> {
let mut builder = GalaxyBuilder::new(_fbb);
builder.add_num_stars(args.num_stars);
builder.finish()
}
#[inline]
pub fn num_stars(&self) -> i64 {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<i64>(Galaxy::VT_NUM_STARS, Some(0)).unwrap()}
}
}
#[inline]
pub fn num_stars(&self) -> i64 {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<i64>(Galaxy::VT_NUM_STARS, Some(0)).unwrap()}
}
}
impl ::flatbuffers::Verifiable for Galaxy<'_> {
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
v.visit_table(pos)?
.visit_field::<i64>("num_stars", Self::VT_NUM_STARS, false)?
.finish();
Ok(())
}
}
impl ::flatbuffers::Verifiable for Galaxy<'_> {
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
v.visit_table(pos)?
.visit_field::<i64>("num_stars", Self::VT_NUM_STARS, false)?
.finish();
Ok(())
}
}
pub struct GalaxyArgs {
pub num_stars: i64,
}
impl<'a> Default for GalaxyArgs {
#[inline]
fn default() -> Self {
GalaxyArgs {
num_stars: 0,
}
}
}
pub struct GalaxyArgs {
pub num_stars: i64,
}
pub struct GalaxyBuilder<'a: 'b, 'b, A: ::flatbuffers::Allocator + 'a> {
fbb_: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>,
start_: ::flatbuffers::WIPOffset<::flatbuffers::TableUnfinishedWIPOffset>,
}
impl<'a: 'b, 'b, A: ::flatbuffers::Allocator + 'a> GalaxyBuilder<'a, 'b, A> {
#[inline]
pub fn add_num_stars(&mut self, num_stars: i64) {
self.fbb_.push_slot::<i64>(Galaxy::VT_NUM_STARS, num_stars, 0);
}
#[inline]
pub fn new(_fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>) -> GalaxyBuilder<'a, 'b, A> {
let start = _fbb.start_table();
GalaxyBuilder {
fbb_: _fbb,
start_: start,
}
}
#[inline]
pub fn finish(self) -> ::flatbuffers::WIPOffset<Galaxy<'a>> {
let o = self.fbb_.end_table(self.start_);
::flatbuffers::WIPOffset::new(o.value())
}
}
impl<'a> Default for GalaxyArgs {
#[inline]
fn default() -> Self {
GalaxyArgs {
num_stars: 0,
}
}
}
impl ::core::fmt::Debug for Galaxy<'_> {
fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result {
let mut ds = f.debug_struct("Galaxy");
ds.field("num_stars", &self.num_stars());
ds.finish()
}
}
pub enum UniverseOffset {}
#[derive(Copy, Clone, PartialEq)]
pub struct GalaxyBuilder<'a: 'b, 'b, A: ::flatbuffers::Allocator + 'a> {
fbb_: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>,
start_: ::flatbuffers::WIPOffset<::flatbuffers::TableUnfinishedWIPOffset>,
}
pub struct Universe<'a> {
pub _tab: ::flatbuffers::Table<'a>,
}
impl<'a: 'b, 'b, A: ::flatbuffers::Allocator + 'a> GalaxyBuilder<'a, 'b, A> {
#[inline]
pub fn add_num_stars(&mut self, num_stars: i64) {
self.fbb_.push_slot::<i64>(Galaxy::VT_NUM_STARS, num_stars, 0);
}
impl<'a> ::flatbuffers::Follow<'a> for Universe<'a> {
type Inner = Universe<'a>;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
Self { _tab: unsafe { ::flatbuffers::Table::new(buf, loc) } }
}
}
#[inline]
pub fn new(_fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>) -> GalaxyBuilder<'a, 'b, A> {
let start = _fbb.start_table();
GalaxyBuilder {
fbb_: _fbb,
start_: start,
}
}
impl<'a> Universe<'a> {
pub const VT_AGE: ::flatbuffers::VOffsetT = 4;
pub const VT_GALAXIES: ::flatbuffers::VOffsetT = 6;
#[inline]
pub fn finish(self) -> ::flatbuffers::WIPOffset<Galaxy<'a>> {
let o = self.fbb_.end_table(self.start_);
::flatbuffers::WIPOffset::new(o.value())
}
}
impl ::core::fmt::Debug for Galaxy<'_> {
fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result {
let mut ds = f.debug_struct("Galaxy");
ds.field("num_stars", &self.num_stars());
ds.finish()
}
}
pub enum UniverseOffset {}
#[derive(Copy, Clone, PartialEq)]
pub struct Universe<'a> {
pub _tab: ::flatbuffers::Table<'a>,
}
impl<'a> ::flatbuffers::Follow<'a> for Universe<'a> {
type Inner = Universe<'a>;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
Self { _tab: unsafe { ::flatbuffers::Table::new(buf, loc) } }
}
}
impl<'a> Universe<'a> {
pub const VT_AGE: ::flatbuffers::VOffsetT = 4;
pub const VT_GALAXIES: ::flatbuffers::VOffsetT = 6;
#[inline]
pub unsafe fn init_from_table(table: ::flatbuffers::Table<'a>) -> Self {
Universe { _tab: table }
}
#[allow(unused_mut)]
pub fn create<'bldr: 'args, 'args: 'mut_bldr, 'mut_bldr, A: ::flatbuffers::Allocator + 'bldr>(
_fbb: &'mut_bldr mut ::flatbuffers::FlatBufferBuilder<'bldr, A>,
args: &'args UniverseArgs<'args>
) -> ::flatbuffers::WIPOffset<Universe<'bldr>> {
let mut builder = UniverseBuilder::new(_fbb);
builder.add_age(args.age);
if let Some(x) = args.galaxies { builder.add_galaxies(x); }
builder.finish()
}
#[inline]
pub unsafe fn init_from_table(table: ::flatbuffers::Table<'a>) -> Self {
Universe { _tab: table }
}
#[allow(unused_mut)]
pub fn create<'bldr: 'args, 'args: 'mut_bldr, 'mut_bldr, A: ::flatbuffers::Allocator + 'bldr>(
_fbb: &'mut_bldr mut ::flatbuffers::FlatBufferBuilder<'bldr, A>,
args: &'args UniverseArgs<'args>
) -> ::flatbuffers::WIPOffset<Universe<'bldr>> {
let mut builder = UniverseBuilder::new(_fbb);
builder.add_age(args.age);
if let Some(x) = args.galaxies { builder.add_galaxies(x); }
builder.finish()
}
#[inline]
pub fn age(&self) -> f64 {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<f64>(Universe::VT_AGE, Some(0.0)).unwrap()}
}
#[inline]
pub fn age(&self) -> f64 {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<f64>(Universe::VT_AGE, Some(0.0)).unwrap()}
}
#[inline]
pub fn galaxies(&self) -> Option<::flatbuffers::Vector<'a, ::flatbuffers::ForwardsUOffset<Galaxy<'a>>>> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'a, ::flatbuffers::ForwardsUOffset<Galaxy>>>>(Universe::VT_GALAXIES, None)}
}
}
#[inline]
pub fn galaxies(&self) -> Option<::flatbuffers::Vector<'a, ::flatbuffers::ForwardsUOffset<Galaxy<'a>>>> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'a, ::flatbuffers::ForwardsUOffset<Galaxy>>>>(Universe::VT_GALAXIES, None)}
}
}
impl ::flatbuffers::Verifiable for Universe<'_> {
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
v.visit_table(pos)?
.visit_field::<f64>("age", Self::VT_AGE, false)?
.visit_field::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'_, ::flatbuffers::ForwardsUOffset<Galaxy>>>>("galaxies", Self::VT_GALAXIES, false)?
.finish();
Ok(())
}
}
pub struct UniverseArgs<'a> {
pub age: f64,
pub galaxies: Option<::flatbuffers::WIPOffset<::flatbuffers::Vector<'a, ::flatbuffers::ForwardsUOffset<Galaxy<'a>>>>>,
}
impl<'a> Default for UniverseArgs<'a> {
#[inline]
fn default() -> Self {
UniverseArgs {
age: 0.0,
galaxies: None,
}
}
}
impl ::flatbuffers::Verifiable for Universe<'_> {
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
v.visit_table(pos)?
.visit_field::<f64>("age", Self::VT_AGE, false)?
.visit_field::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'_, ::flatbuffers::ForwardsUOffset<Galaxy>>>>("galaxies", Self::VT_GALAXIES, false)?
.finish();
Ok(())
}
}
pub struct UniverseBuilder<'a: 'b, 'b, A: ::flatbuffers::Allocator + 'a> {
fbb_: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>,
start_: ::flatbuffers::WIPOffset<::flatbuffers::TableUnfinishedWIPOffset>,
}
impl<'a: 'b, 'b, A: ::flatbuffers::Allocator + 'a> UniverseBuilder<'a, 'b, A> {
#[inline]
pub fn add_age(&mut self, age: f64) {
self.fbb_.push_slot::<f64>(Universe::VT_AGE, age, 0.0);
}
#[inline]
pub fn add_galaxies(&mut self, galaxies: ::flatbuffers::WIPOffset<::flatbuffers::Vector<'b , ::flatbuffers::ForwardsUOffset<Galaxy<'b >>>>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Universe::VT_GALAXIES, galaxies);
}
#[inline]
pub fn new(_fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>) -> UniverseBuilder<'a, 'b, A> {
let start = _fbb.start_table();
UniverseBuilder {
fbb_: _fbb,
start_: start,
}
}
#[inline]
pub fn finish(self) -> ::flatbuffers::WIPOffset<Universe<'a>> {
let o = self.fbb_.end_table(self.start_);
::flatbuffers::WIPOffset::new(o.value())
}
}
pub struct UniverseArgs<'a> {
pub age: f64,
pub galaxies: Option<::flatbuffers::WIPOffset<::flatbuffers::Vector<'a, ::flatbuffers::ForwardsUOffset<Galaxy<'a>>>>>,
}
impl ::core::fmt::Debug for Universe<'_> {
fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result {
let mut ds = f.debug_struct("Universe");
ds.field("age", &self.age());
ds.field("galaxies", &self.galaxies());
ds.finish()
}
}
#[inline]
/// Verifies that a buffer of bytes contains a `Universe`
/// and returns it.
/// Note that verification is still experimental and may not
/// catch every error, or be maximally performant. For the
/// previous, unchecked, behavior use
/// `root_as_universe_unchecked`.
pub fn root_as_universe(buf: &[u8]) -> Result<Universe<'_>, ::flatbuffers::InvalidFlatbuffer> {
::flatbuffers::root::<Universe>(buf)
}
#[inline]
/// Verifies that a buffer of bytes contains a size prefixed
/// `Universe` and returns it.
/// Note that verification is still experimental and may not
/// catch every error, or be maximally performant. For the
/// previous, unchecked, behavior use
/// `size_prefixed_root_as_universe_unchecked`.
pub fn size_prefixed_root_as_universe(buf: &[u8]) -> Result<Universe<'_>, ::flatbuffers::InvalidFlatbuffer> {
::flatbuffers::size_prefixed_root::<Universe>(buf)
}
#[inline]
/// Verifies, with the given options, that a buffer of bytes
/// contains a `Universe` and returns it.
/// Note that verification is still experimental and may not
/// catch every error, or be maximally performant. For the
/// previous, unchecked, behavior use
/// `root_as_universe_unchecked`.
pub fn root_as_universe_with_opts<'b, 'o>(
opts: &'o ::flatbuffers::VerifierOptions,
buf: &'b [u8],
) -> Result<Universe<'b>, ::flatbuffers::InvalidFlatbuffer> {
::flatbuffers::root_with_opts::<Universe<'b>>(opts, buf)
}
#[inline]
/// Verifies, with the given verifier options, that a buffer of
/// bytes contains a size prefixed `Universe` and returns
/// it. Note that verification is still experimental and may not
/// catch every error, or be maximally performant. For the
/// previous, unchecked, behavior use
/// `root_as_universe_unchecked`.
pub fn size_prefixed_root_as_universe_with_opts<'b, 'o>(
opts: &'o ::flatbuffers::VerifierOptions,
buf: &'b [u8],
) -> Result<Universe<'b>, ::flatbuffers::InvalidFlatbuffer> {
::flatbuffers::size_prefixed_root_with_opts::<Universe<'b>>(opts, buf)
}
#[inline]
/// Assumes, without verification, that a buffer of bytes contains a Universe and returns it.
/// # Safety
/// Callers must trust the given bytes do indeed contain a valid `Universe`.
pub unsafe fn root_as_universe_unchecked(buf: &[u8]) -> Universe<'_> {
unsafe { ::flatbuffers::root_unchecked::<Universe>(buf) }
}
#[inline]
/// Assumes, without verification, that a buffer of bytes contains a size prefixed Universe and returns it.
/// # Safety
/// Callers must trust the given bytes do indeed contain a valid size prefixed `Universe`.
pub unsafe fn size_prefixed_root_as_universe_unchecked(buf: &[u8]) -> Universe<'_> {
unsafe { ::flatbuffers::size_prefixed_root_unchecked::<Universe>(buf) }
}
#[inline]
pub fn finish_universe_buffer<'a, 'b, A: ::flatbuffers::Allocator + 'a>(
fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>,
root: ::flatbuffers::WIPOffset<Universe<'a>>) {
fbb.finish(root, None);
}
impl<'a> Default for UniverseArgs<'a> {
#[inline]
fn default() -> Self {
UniverseArgs {
age: 0.0,
galaxies: None,
}
}
}
#[inline]
pub fn finish_size_prefixed_universe_buffer<'a, 'b, A: ::flatbuffers::Allocator + 'a>(fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>, root: ::flatbuffers::WIPOffset<Universe<'a>>) {
fbb.finish_size_prefixed(root, None);
}
} // pub mod goldens
} // pub mod flatbuffers
pub struct UniverseBuilder<'a: 'b, 'b, A: ::flatbuffers::Allocator + 'a> {
fbb_: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>,
start_: ::flatbuffers::WIPOffset<::flatbuffers::TableUnfinishedWIPOffset>,
}
impl<'a: 'b, 'b, A: ::flatbuffers::Allocator + 'a> UniverseBuilder<'a, 'b, A> {
#[inline]
pub fn add_age(&mut self, age: f64) {
self.fbb_.push_slot::<f64>(Universe::VT_AGE, age, 0.0);
}
#[inline]
pub fn add_galaxies(&mut self, galaxies: ::flatbuffers::WIPOffset<::flatbuffers::Vector<'b , ::flatbuffers::ForwardsUOffset<Galaxy<'b >>>>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Universe::VT_GALAXIES, galaxies);
}
#[inline]
pub fn new(_fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>) -> UniverseBuilder<'a, 'b, A> {
let start = _fbb.start_table();
UniverseBuilder {
fbb_: _fbb,
start_: start,
}
}
#[inline]
pub fn finish(self) -> ::flatbuffers::WIPOffset<Universe<'a>> {
let o = self.fbb_.end_table(self.start_);
::flatbuffers::WIPOffset::new(o.value())
}
}
impl ::core::fmt::Debug for Universe<'_> {
fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result {
let mut ds = f.debug_struct("Universe");
ds.field("age", &self.age());
ds.field("galaxies", &self.galaxies());
ds.finish()
}
}
/// Verifies that a buffer of bytes contains a `Universe`
/// and returns it.
/// Note that verification is still experimental and may not
/// catch every error, or be maximally performant. For the
/// previous, unchecked, behavior use
/// `root_as_universe_unchecked`.
#[inline]
pub fn root_as_universe(buf: &[u8]) -> Result<Universe<'_>, ::flatbuffers::InvalidFlatbuffer> {
::flatbuffers::root::<Universe>(buf)
}
/// Verifies that a buffer of bytes contains a size prefixed
/// `Universe` and returns it.
/// Note that verification is still experimental and may not
/// catch every error, or be maximally performant. For the
/// previous, unchecked, behavior use
/// `size_prefixed_root_as_universe_unchecked`.
#[inline]
pub fn size_prefixed_root_as_universe(buf: &[u8]) -> Result<Universe<'_>, ::flatbuffers::InvalidFlatbuffer> {
::flatbuffers::size_prefixed_root::<Universe>(buf)
}
/// Verifies, with the given options, that a buffer of bytes
/// contains a `Universe` and returns it.
/// Note that verification is still experimental and may not
/// catch every error, or be maximally performant. For the
/// previous, unchecked, behavior use
/// `root_as_universe_unchecked`.
#[inline]
pub fn root_as_universe_with_opts<'b, 'o>(
opts: &'o ::flatbuffers::VerifierOptions,
buf: &'b [u8],
) -> Result<Universe<'b>, ::flatbuffers::InvalidFlatbuffer> {
::flatbuffers::root_with_opts::<Universe<'b>>(opts, buf)
}
/// Verifies, with the given verifier options, that a buffer of
/// bytes contains a size prefixed `Universe` and returns
/// it. Note that verification is still experimental and may not
/// catch every error, or be maximally performant. For the
/// previous, unchecked, behavior use
/// `root_as_universe_unchecked`.
#[inline]
pub fn size_prefixed_root_as_universe_with_opts<'b, 'o>(
opts: &'o ::flatbuffers::VerifierOptions,
buf: &'b [u8],
) -> Result<Universe<'b>, ::flatbuffers::InvalidFlatbuffer> {
::flatbuffers::size_prefixed_root_with_opts::<Universe<'b>>(opts, buf)
}
/// Assumes, without verification, that a buffer of bytes contains a Universe and returns it.
/// # Safety
/// Callers must trust the given bytes do indeed contain a valid `Universe`.
#[inline]
pub unsafe fn root_as_universe_unchecked(buf: &[u8]) -> Universe<'_> {
unsafe { ::flatbuffers::root_unchecked::<Universe>(buf) }
}
/// Assumes, without verification, that a buffer of bytes contains a size prefixed Universe and returns it.
/// # Safety
/// Callers must trust the given bytes do indeed contain a valid size prefixed `Universe`.
#[inline]
pub unsafe fn size_prefixed_root_as_universe_unchecked(buf: &[u8]) -> Universe<'_> {
unsafe { ::flatbuffers::size_prefixed_root_unchecked::<Universe>(buf) }
}
#[inline]
pub fn finish_universe_buffer<'a, 'b, A: ::flatbuffers::Allocator + 'a>(
fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>,
root: ::flatbuffers::WIPOffset<Universe<'a>>
) {
fbb.finish(root, None);
}
#[inline]
pub fn finish_size_prefixed_universe_buffer<'a, 'b, A: ::flatbuffers::Allocator + 'a>(
fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>,
root: ::flatbuffers::WIPOffset<Universe<'a>>
) {
fbb.finish_size_prefixed(root, None);
}
} // pub mod goldens
} // pub mod flatbuffers

View File

@@ -4,7 +4,7 @@
import * as flatbuffers from 'flatbuffers';
import { Galaxy } from './galaxy.js';
import { Galaxy } from '../../flatbuffers/goldens/galaxy.js';
export class Universe {

View File

@@ -1,16 +0,0 @@
namespace models;
table HelloResponse {
message:string;
}
table HelloRequest {
name:string;
}
rpc_service Greeter {
Get(HelloRequest):HelloResponse;
Collect(HelloRequest):HelloResponse (streaming: "client");
Expand(HelloRequest):HelloResponse (streaming: "server");
Update(HelloRequest):HelloResponse (streaming: "bidi");
}

View File

@@ -1,4 +1,4 @@
// swift-tools-version:6.2
// swift-tools-version:5.10
/*
* Copyright 2020 Google Inc. All rights reserved.
*
@@ -20,43 +20,39 @@ import PackageDescription
let package = Package(
name: "Greeter",
platforms: [
.iOS(.v18),
.macOS(.v15),
.iOS(.v12),
.macOS(.v10_14),
],
dependencies: [
.package(path: "../../../.."),
.package(url: "https://github.com/grpc/grpc-swift-2.git", from: "2.0.0"),
.package(
url: "https://github.com/grpc/grpc-swift-nio-transport.git",
from: "2.0.0"),
.package(
url: "https://github.com/apple/swift-argument-parser.git",
from: "1.5.0"),
.package(path: "../../../../swift"),
.package(url: "https://github.com/grpc/grpc-swift.git", from: "1.0.0"),
],
targets: [
// Targets are the basic building blocks of a package. A target can define a module or a test suite.
// Targets can depend on other targets in this package, and on products in packages which this package depends on.
.target(
name: "Models",
name: "Model",
dependencies: [
.product(name: "FlatBuffers", package: "flatbuffers"),
.product(name: "GRPCCore", package: "grpc-swift-2"),
.product(
name: "GRPCNIOTransportHTTP2",
package: "grpc-swift-nio-transport"),
]),
"GRPC",
"FlatBuffers",
],
path: "Sources/Model"),
// Client for the Greeter example
.executableTarget(
name: "Commands",
.target(
name: "Client",
dependencies: [
.product(name: "GRPCCore", package: "grpc-swift-2"),
.product(
name: "GRPCNIOTransportHTTP2",
package: "grpc-swift-nio-transport"),
.product(
name: "ArgumentParser",
package: "swift-argument-parser"),
"Models",
]),
"GRPC",
"Model",
],
path: "Sources/client"),
// Server for the Greeter example
.target(
name: "Server",
dependencies: [
"GRPC",
"Model",
],
path: "Sources/server"),
])

View File

@@ -1,28 +0,0 @@
/*
* Copyright 2024 Google Inc. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import ArgumentParser
let port = 3000
@main
struct GreeterCommand: AsyncParsableCommand {
static let configuration = CommandConfiguration(
commandName: "greeter",
abstract: "A multi-tool to run an echo server and execute RPCs against it.",
subcommands: [ServerCommand.self, ClientCommand.self])
}

View File

@@ -1,121 +0,0 @@
/*
* Copyright 2024 Google Inc. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import FlatBuffers
import GRPCCore
import Models
struct GreeterService: models_Greeter.SimpleServiceProtocol {
func Get(
request: GRPCMessage<models_HelloResponse>,
context: GRPCCore
.ServerContext) async throws -> GRPCMessage<models_HelloResponse>
{
let model = try request.decode()
print("## GreeterService.Get: \(model.message)")
var builder = FlatBufferBuilder(initialSize: 128)
let off = builder.create(string: "Hello \(model.message ?? "Unknown")")
let root = models_HelloResponse.createHelloResponse(
&builder,
messageOffset: off)
builder.finish(offset: root)
return try GRPCMessage<models_HelloResponse>(builder: &builder)
}
func Collect(
request: GRPCCore.RPCAsyncSequence<
GRPCMessage<models_HelloResponse>,
any Swift.Error
>,
context: GRPCCore
.ServerContext) async throws -> GRPCMessage<models_HelloResponse>
{
let messages: [String] = try await request
.reduce(into: []) { array, message in
let model = try message.decode()
return array.append(model.message ?? "Unknown")
}
let joined = messages.joined(separator: ", ")
print("## GreeterService.Collect: \(joined)")
var builder = FlatBufferBuilder(initialSize: 128)
let off = builder.create(string: "Hello \(joined)")
let root = models_HelloResponse.createHelloResponse(
&builder,
messageOffset: off)
builder.finish(offset: root)
return try GRPCMessage<models_HelloResponse>(builder: &builder)
}
func Expand(
request: GRPCMessage<models_HelloResponse>,
response: GRPCCore.RPCWriter<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext) async throws
{
let model = try request.decode()
print("## GreeterService.Expand: \(model.message)")
let message = model.message ?? "Unknown"
let stream = AsyncThrowingStream<
GRPCMessage<models_HelloResponse>,
Error
> { continuation in
var builder = FlatBufferBuilder(initialSize: 128)
for char in message {
let off = builder.create(string: "\(char)")
let root = models_HelloResponse.createHelloResponse(
&builder,
messageOffset: off)
builder.finish(offset: root)
do {
continuation
.yield(try GRPCMessage<models_HelloResponse>(builder: &builder))
} catch {
continuation.finish(throwing: error)
}
}
continuation.finish()
}
try await response.write(contentsOf: stream)
}
func Update(
request: GRPCCore.RPCAsyncSequence<
GRPCMessage<models_HelloResponse>,
any Swift.Error
>,
response: GRPCCore.RPCWriter<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext) async throws
{
for try await message in request {
let model = try message.decode()
print("## GreeterService.Update: \(model.message)")
var builder = FlatBufferBuilder(initialSize: 128)
let off = builder.create(string: "Hello \(model.message ?? "Unknown")")
let root = models_HelloResponse.createHelloResponse(
&builder,
messageOffset: off)
builder.finish(offset: root)
try await response
.write(try GRPCMessage<models_HelloResponse>(builder: &builder))
}
}
}

View File

@@ -1,140 +0,0 @@
/*
* Copyright 2024 Google Inc. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import ArgumentParser
import FlatBuffers
import GRPCCore
import GRPCNIOTransportHTTP2
import Models
enum ClientRequest: String, ExpressibleByArgument {
case get, expand, collect, update
}
struct ClientCommand: AsyncParsableCommand {
static let configuration = CommandConfiguration(
commandName: "client")
@Option(help: "Name to send to the server")
var name: String
@Option(help: "request type")
var request: ClientRequest
func run() async throws {
try await withGRPCClient(
transport: .http2NIOPosix(
target: .dns(host: "localhost", port: port),
transportSecurity: .plaintext))
{
let client = models_Greeter.Client(wrapping: $0)
switch request {
case .get: try await get(client: client)
case .expand: try await expand(client: client)
case .collect: try await collect(client: client)
case .update: try await update(client: client)
}
}
}
func get(
client: models_Greeter
.Client<HTTP2ClientTransport.Posix>) async throws
{
for _ in 0..<3 {
var builder = FlatBufferBuilder(initialSize: 64)
let off = builder.create(string: name)
let root = models_HelloRequest.createHelloRequest(
&builder,
nameOffset: off)
builder.finish(offset: root)
let response = try await client
.Get(GRPCMessage(builder: &builder))
let message = try? response.decode().message
print("get message: \(message ?? "nil")")
}
}
func expand(
client: models_Greeter
.Client<HTTP2ClientTransport.Posix>) async throws
{
for _ in 0..<3 {
var builder = FlatBufferBuilder(initialSize: 64)
let off = builder.create(string: name)
let root = models_HelloRequest.createHelloRequest(
&builder,
nameOffset: off)
builder.finish(offset: root)
try await client.Expand(GRPCMessage(builder: &builder)) { response in
for try await message in response.messages {
let message = try? message.decode().message
print("expand message: \(message ?? "nil")")
}
}
}
}
func collect(
client: models_Greeter
.Client<HTTP2ClientTransport.Posix>) async throws
{
for _ in 0..<3 {
let response = try await client.Collect { writer in
for part in name {
print("collect sending: \(part)")
var builder = FlatBufferBuilder(initialSize: 64)
let off = builder.create(string: String(part))
let root = models_HelloRequest.createHelloRequest(
&builder,
nameOffset: off)
builder.finish(offset: root)
try await writer.write(GRPCMessage(builder: &builder))
}
}
let message = try response.decode().message
print("collect message: \(message ?? "nil")")
}
}
func update(
client: models_Greeter
.Client<HTTP2ClientTransport.Posix>) async throws
{
for _ in 0..<3 {
try await client.Update { writer in
for part in name {
print("update sending: \(part)")
var builder = FlatBufferBuilder(initialSize: 64)
let off = builder.create(string: String(part))
let root = models_HelloRequest.createHelloRequest(
&builder,
nameOffset: off)
builder.finish(offset: root)
try await writer.write(GRPCMessage(builder: &builder))
}
} onResponse: { response in
for try await message in response.messages {
let message = try message.decode().message
print("collect message: \(message ?? "nil")")
}
}
}
}
}

View File

@@ -1,39 +0,0 @@
/*
* Copyright 2024 Google Inc. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import ArgumentParser
import GRPCCore
import GRPCNIOTransportHTTP2
struct ServerCommand: AsyncParsableCommand {
static let configuration = CommandConfiguration(
commandName: "serve")
func run() async throws {
let server = GRPCServer(
transport: .http2NIOPosix(
address: .ipv4(host: "127.0.0.1", port: port),
transportSecurity: .plaintext),
services: [GreeterService()])
try await withThrowingDiscardingTaskGroup { group in
group.addTask { try await server.serve() }
if let address = try await server.listeningAddress {
print("Echo listening on \(address)")
}
}
}
}

View File

@@ -0,0 +1,147 @@
// Generated GRPC code for FlatBuffers swift!
/// The following code is generated by the Flatbuffers library which might not be in sync with grpc-swift
/// in case of an issue please open github issue, though it would be maintained
// swiftlint:disable all
// swiftformat:disable all
#if !os(Windows)
import Foundation
import GRPC
import NIO
import NIOHTTP1
import FlatBuffers
public protocol GRPCFlatBufPayload: GRPCPayload, FlatBufferGRPCMessage {}
public extension GRPCFlatBufPayload {
init(serializedByteBuffer: inout NIO.ByteBuffer) throws {
self.init(byteBuffer: FlatBuffers.ByteBuffer(contiguousBytes: serializedByteBuffer.readableBytesView, count: serializedByteBuffer.readableBytes))
}
func serialize(into buffer: inout NIO.ByteBuffer) throws {
withUnsafeReadableBytes { buffer.writeBytes($0) }
}
}
extension Message: GRPCFlatBufPayload {}
/// Usage: instantiate models_GreeterServiceClient, then call methods of this protocol to make API calls.
public protocol models_GreeterClientProtocol: GRPCClient {
var serviceName: String { get }
var interceptors: models_GreeterClientInterceptorFactoryProtocol? { get }
func SayHello(
_ request: Message<models_HelloRequest>
, callOptions: CallOptions?
) -> UnaryCall<Message<models_HelloRequest>, Message<models_HelloReply>>
func SayManyHellos(
_ request: Message<models_HelloRequest>
, callOptions: CallOptions?,
handler: @escaping (Message<models_HelloReply>) -> Void
) -> ServerStreamingCall<Message<models_HelloRequest>, Message<models_HelloReply>>
}
extension models_GreeterClientProtocol {
public var serviceName: String { "models.Greeter" }
public func SayHello(
_ request: Message<models_HelloRequest>
, callOptions: CallOptions? = nil
) -> UnaryCall<Message<models_HelloRequest>, Message<models_HelloReply>> {
return self.makeUnaryCall(
path: "/models.Greeter/SayHello",
request: request,
callOptions: callOptions ?? self.defaultCallOptions,
interceptors: self.interceptors?.makeSayHelloInterceptors() ?? []
)
}
public func SayManyHellos(
_ request: Message<models_HelloRequest>
, callOptions: CallOptions? = nil,
handler: @escaping (Message<models_HelloReply>) -> Void
) -> ServerStreamingCall<Message<models_HelloRequest>, Message<models_HelloReply>> {
return self.makeServerStreamingCall(
path: "/models.Greeter/SayManyHellos",
request: request,
callOptions: callOptions ?? self.defaultCallOptions,
interceptors: self.interceptors?.makeSayManyHellosInterceptors() ?? [],
handler: handler
)
}
}
public protocol models_GreeterClientInterceptorFactoryProtocol {
/// - Returns: Interceptors to use when invoking 'SayHello'.
func makeSayHelloInterceptors() -> [ClientInterceptor<Message<models_HelloRequest>, Message<models_HelloReply>>]
/// - Returns: Interceptors to use when invoking 'SayManyHellos'.
func makeSayManyHellosInterceptors() -> [ClientInterceptor<Message<models_HelloRequest>, Message<models_HelloReply>>]
}
public final class models_GreeterServiceClient: models_GreeterClientProtocol {
public let channel: GRPCChannel
public var defaultCallOptions: CallOptions
public var interceptors: models_GreeterClientInterceptorFactoryProtocol?
public init(
channel: GRPCChannel,
defaultCallOptions: CallOptions = CallOptions(),
interceptors: models_GreeterClientInterceptorFactoryProtocol? = nil
) {
self.channel = channel
self.defaultCallOptions = defaultCallOptions
self.interceptors = interceptors
}
}
public protocol models_GreeterProvider: CallHandlerProvider {
var interceptors: models_GreeterServerInterceptorFactoryProtocol? { get }
func SayHello(request: Message<models_HelloRequest>, context: StatusOnlyCallContext) -> EventLoopFuture<Message<models_HelloReply>>
func SayManyHellos(request: Message<models_HelloRequest>, context: StreamingResponseCallContext<Message<models_HelloReply>>) -> EventLoopFuture<GRPCStatus>
}
public extension models_GreeterProvider {
var serviceName: Substring { return "models.Greeter" }
func handle(method name: Substring, context: CallHandlerContext) -> GRPCServerHandlerProtocol? {
switch name {
case "SayHello":
return UnaryServerHandler(
context: context,
requestDeserializer: GRPCPayloadDeserializer<Message<models_HelloRequest>>(),
responseSerializer: GRPCPayloadSerializer<Message<models_HelloReply>>(),
interceptors: self.interceptors?.makeSayHelloInterceptors() ?? [],
userFunction: self.SayHello(request:context:))
case "SayManyHellos":
return ServerStreamingServerHandler(
context: context,
requestDeserializer: GRPCPayloadDeserializer<Message<models_HelloRequest>>(),
responseSerializer: GRPCPayloadSerializer<Message<models_HelloReply>>(),
interceptors: self.interceptors?.makeSayManyHellosInterceptors() ?? [],
userFunction: self.SayManyHellos(request:context:))
default: return nil;
}
}
}
public protocol models_GreeterServerInterceptorFactoryProtocol {
/// - Returns: Interceptors to use when handling 'SayHello'.
/// Defaults to calling `self.makeInterceptors()`.
func makeSayHelloInterceptors() -> [ServerInterceptor<Message<models_HelloRequest>, Message<models_HelloReply>>]
/// - Returns: Interceptors to use when handling 'SayManyHellos'.
/// Defaults to calling `self.makeInterceptors()`.
func makeSayManyHellosInterceptors() -> [ServerInterceptor<Message<models_HelloRequest>, Message<models_HelloReply>>]
}
#endif

View File

@@ -8,7 +8,7 @@ import Common
import FlatBuffers
public struct models_HelloResponse: FlatBufferVerifiableTable, FlatbuffersVectorInitializable {
public struct models_HelloReply: FlatBufferTable, FlatbuffersVectorInitializable, Verifiable {
static func validateVersion() { FlatBuffersVersion_25_12_19() }
public var __buffer: ByteBuffer! { return _accessor.bb }
@@ -17,43 +17,45 @@ public struct models_HelloResponse: FlatBufferVerifiableTable, FlatbuffersVector
private init(_ t: Table) { _accessor = t }
public init(_ bb: ByteBuffer, o: Int32) { _accessor = Table(bb: bb, position: o) }
private struct VT {
static let message: VOffset = 4
private enum VTOFFSET: VOffset {
case message = 4
var v: Int32 { Int32(self.rawValue) }
var p: VOffset { self.rawValue }
}
public var message: String? { let o = _accessor.offset(VT.message); return o == 0 ? nil : _accessor.string(at: o) }
public var messageSegmentArray: [UInt8]? { return _accessor.getVector(at: VT.message) }
public static func startHelloResponse(_ fbb: inout FlatBufferBuilder) -> UOffset { fbb.startTable(with: 1) }
public static func add(message: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: message, at: VT.message) }
public static func endHelloResponse(_ fbb: inout FlatBufferBuilder, start: UOffset) -> Offset { let end = Offset(offset: fbb.endTable(at: start)); return end }
public static func createHelloResponse(
public var message: String? { let o = _accessor.offset(VTOFFSET.message.v); return o == 0 ? nil : _accessor.string(at: o) }
public var messageSegmentArray: [UInt8]? { return _accessor.getVector(at: VTOFFSET.message.v) }
public static func startHelloReply(_ fbb: inout FlatBufferBuilder) -> UOffset { fbb.startTable(with: 1) }
public static func add(message: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: message, at: VTOFFSET.message.p) }
public static func endHelloReply(_ fbb: inout FlatBufferBuilder, start: UOffset) -> Offset { let end = Offset(offset: fbb.endTable(at: start)); return end }
public static func createHelloReply(
_ fbb: inout FlatBufferBuilder,
messageOffset message: Offset = Offset()
) -> Offset {
let __start = models_HelloResponse.startHelloResponse(&fbb)
models_HelloResponse.add(message: message, &fbb)
return models_HelloResponse.endHelloResponse(&fbb, start: __start)
let __start = models_HelloReply.startHelloReply(&fbb)
models_HelloReply.add(message: message, &fbb)
return models_HelloReply.endHelloReply(&fbb, start: __start)
}
public static func verify<T>(_ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable {
var _v = try verifier.visitTable(at: position)
try _v.visit(field: VT.message, fieldName: "message", required: false, type: ForwardOffset<String>.self)
try _v.visit(field: VTOFFSET.message.p, fieldName: "message", required: false, type: ForwardOffset<String>.self)
_v.finish()
}
}
extension models_HelloResponse: Encodable {
extension models_HelloReply: Encodable {
enum CodingKeys: String, CodingKey {
case message = "message"
}
public func encode(to encoder: Encoder) throws {
var container = encoder.container(keyedBy: CodingKeys.self)
try container.encodeIfPresent(message, forKey: .message)
}
}
public struct models_HelloRequest: FlatBufferVerifiableTable, FlatbuffersVectorInitializable {
public struct models_HelloRequest: FlatBufferTable, FlatbuffersVectorInitializable, Verifiable {
static func validateVersion() { FlatBuffersVersion_25_12_19() }
public var __buffer: ByteBuffer! { return _accessor.bb }
@@ -62,14 +64,16 @@ public struct models_HelloRequest: FlatBufferVerifiableTable, FlatbuffersVectorI
private init(_ t: Table) { _accessor = t }
public init(_ bb: ByteBuffer, o: Int32) { _accessor = Table(bb: bb, position: o) }
private struct VT {
static let name: VOffset = 4
private enum VTOFFSET: VOffset {
case name = 4
var v: Int32 { Int32(self.rawValue) }
var p: VOffset { self.rawValue }
}
public var name: String? { let o = _accessor.offset(VT.name); return o == 0 ? nil : _accessor.string(at: o) }
public var nameSegmentArray: [UInt8]? { return _accessor.getVector(at: VT.name) }
public var name: String? { let o = _accessor.offset(VTOFFSET.name.v); return o == 0 ? nil : _accessor.string(at: o) }
public var nameSegmentArray: [UInt8]? { return _accessor.getVector(at: VTOFFSET.name.v) }
public static func startHelloRequest(_ fbb: inout FlatBufferBuilder) -> UOffset { fbb.startTable(with: 1) }
public static func add(name: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: name, at: VT.name) }
public static func add(name: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: name, at: VTOFFSET.name.p) }
public static func endHelloRequest(_ fbb: inout FlatBufferBuilder, start: UOffset) -> Offset { let end = Offset(offset: fbb.endTable(at: start)); return end }
public static func createHelloRequest(
_ fbb: inout FlatBufferBuilder,
@@ -82,16 +86,16 @@ public struct models_HelloRequest: FlatBufferVerifiableTable, FlatbuffersVectorI
public static func verify<T>(_ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable {
var _v = try verifier.visitTable(at: position)
try _v.visit(field: VT.name, fieldName: "name", required: false, type: ForwardOffset<String>.self)
try _v.visit(field: VTOFFSET.name.p, fieldName: "name", required: false, type: ForwardOffset<String>.self)
_v.finish()
}
}
extension models_HelloRequest: Encodable {
enum CodingKeys: String, CodingKey {
case name = "name"
}
public func encode(to encoder: Encoder) throws {
var container = encoder.container(keyedBy: CodingKeys.self)
try container.encodeIfPresent(name, forKey: .name)

View File

@@ -1,572 +0,0 @@
// Generated GRPC code for FlatBuffers swift!
/// The following code is generated by the Flatbuffers library which might not be in sync with grpc-swift
/// in case of an issue please open github issue, though it would be maintained
// swiftlint:disable all
// swiftformat:disable all
#if !os(Windows) && compiler(>=6.0)
import FlatBuffers
import Foundation
import GRPCCore
import GRPCNIOTransportCore
/// Usage: instantiate models.GreeterServiceClient, then call methods of this protocol to make API calls.
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
extension FlatBuffersMessageSerializer: MessageSerializer {
public func serialize<Bytes>(_ message: Message) throws -> Bytes where Bytes : GRPCCore.GRPCContiguousBytes {
do {
return try self.serialize(message: message) { GRPCNIOTransportBytes($0) } as! Bytes
} catch let error {
throw RPCError(
code: .invalidArgument,
message: "Can't serialize message",
cause: error
)
}
}
}
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
extension FlatBuffersMessageDeserializer: MessageDeserializer {
public func deserialize<Bytes>(_ serializedMessageBytes: Bytes) throws -> Message where Bytes : GRPCCore.GRPCContiguousBytes {
do {
return try serializedMessageBytes.withUnsafeBytes {
try self.deserialize(pointer: $0)
}
} catch let error {
throw RPCError(
code: .invalidArgument,
message: "Can't Decode message of type \(Message.self)",
cause: error
)
}
}
}
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
public enum models_Greeter: Sendable {
public static let descriptor = GRPCCore.ServiceDescriptor(fullyQualifiedService: "models.Greeter")
public enum Method: Sendable {
public enum Get: Sendable {
public typealias Input = FlatBufferBuilder
public typealias Output = models_HelloResponse
public static let descriptor = GRPCCore.MethodDescriptor(
service: GRPCCore.ServiceDescriptor(fullyQualifiedService: "models.Greeter"),
method: "Get"
)
}
public enum Collect: Sendable {
public typealias Input = FlatBufferBuilder
public typealias Output = models_HelloResponse
public static let descriptor = GRPCCore.MethodDescriptor(
service: GRPCCore.ServiceDescriptor(fullyQualifiedService: "models.Greeter"),
method: "Collect"
)
}
public enum Expand: Sendable {
public typealias Input = FlatBufferBuilder
public typealias Output = models_HelloResponse
public static let descriptor = GRPCCore.MethodDescriptor(
service: GRPCCore.ServiceDescriptor(fullyQualifiedService: "models.Greeter"),
method: "Expand"
)
}
public enum Update: Sendable {
public typealias Input = FlatBufferBuilder
public typealias Output = models_HelloResponse
public static let descriptor = GRPCCore.MethodDescriptor(
service: GRPCCore.ServiceDescriptor(fullyQualifiedService: "models.Greeter"),
method: "Update"
)
}
public static let descriptors: [GRPCCore.MethodDescriptor] = [
Get.descriptor,
Collect.descriptor,
Expand.descriptor,
Update.descriptor,
]
}
}
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
extension GRPCCore.ServiceDescriptor {
public static let models_Greeter = GRPCCore.ServiceDescriptor(fullyQualifiedService: "models.Greeter")
}
// MARK: models.Greeter Server
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
extension models_Greeter {
public protocol StreamingServiceProtocol: GRPCCore.RegistrableRPCService {
func Get(
request: GRPCCore.StreamingServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.StreamingServerResponse<GRPCMessage<models_HelloResponse>>
func Collect(
request: GRPCCore.StreamingServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.StreamingServerResponse<GRPCMessage<models_HelloResponse>>
func Expand(
request: GRPCCore.StreamingServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.StreamingServerResponse<GRPCMessage<models_HelloResponse>>
func Update(
request: GRPCCore.StreamingServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.StreamingServerResponse<GRPCMessage<models_HelloResponse>>
}
public protocol ServiceProtocol: models_Greeter.StreamingServiceProtocol {
func Get(
request: GRPCCore.ServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.ServerResponse<GRPCMessage<models_HelloResponse>>
func Collect(
request: GRPCCore.StreamingServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.ServerResponse<GRPCMessage<models_HelloResponse>>
func Expand(
request: GRPCCore.ServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.StreamingServerResponse<GRPCMessage<models_HelloResponse>>
func Update(
request: GRPCCore.StreamingServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.StreamingServerResponse<GRPCMessage<models_HelloResponse>>
}
public protocol SimpleServiceProtocol: models_Greeter.ServiceProtocol {
func Get(
request: GRPCMessage<models_HelloResponse>,
context: GRPCCore.ServerContext
) async throws -> GRPCMessage<models_HelloResponse>
func Collect(
request: GRPCCore.RPCAsyncSequence<GRPCMessage<models_HelloResponse>, any Swift.Error>,
context: GRPCCore.ServerContext
) async throws -> GRPCMessage<models_HelloResponse>
func Expand(
request: GRPCMessage<models_HelloResponse>,
response: GRPCCore.RPCWriter<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws
func Update(
request: GRPCCore.RPCAsyncSequence<GRPCMessage<models_HelloResponse>, any Swift.Error>,
response: GRPCCore.RPCWriter<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws
}
}
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
extension models_Greeter.StreamingServiceProtocol {
public func registerMethods<Transport>(with router: inout GRPCCore.RPCRouter<Transport>) where Transport: GRPCCore.ServerTransport {
router.registerHandler(
forMethod: models_Greeter.Method.Get.descriptor,
deserializer: FlatBuffersMessageDeserializer<GRPCMessage<models_HelloResponse>>(),
serializer: FlatBuffersMessageSerializer<GRPCMessage<models_HelloResponse>>(),
handler: { request, context in
try await self.Get(
request: request,
context: context
)
}
)
router.registerHandler(
forMethod: models_Greeter.Method.Collect.descriptor,
deserializer: FlatBuffersMessageDeserializer<GRPCMessage<models_HelloResponse>>(),
serializer: FlatBuffersMessageSerializer<GRPCMessage<models_HelloResponse>>(),
handler: { request, context in
try await self.Collect(
request: request,
context: context
)
}
)
router.registerHandler(
forMethod: models_Greeter.Method.Expand.descriptor,
deserializer: FlatBuffersMessageDeserializer<GRPCMessage<models_HelloResponse>>(),
serializer: FlatBuffersMessageSerializer<GRPCMessage<models_HelloResponse>>(),
handler: { request, context in
try await self.Expand(
request: request,
context: context
)
}
)
router.registerHandler(
forMethod: models_Greeter.Method.Update.descriptor,
deserializer: FlatBuffersMessageDeserializer<GRPCMessage<models_HelloResponse>>(),
serializer: FlatBuffersMessageSerializer<GRPCMessage<models_HelloResponse>>(),
handler: { request, context in
try await self.Update(
request: request,
context: context
)
}
)
}
}
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
extension models_Greeter.ServiceProtocol {
public func Get(
request: GRPCCore.StreamingServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.StreamingServerResponse<GRPCMessage<models_HelloResponse>> {
let response = try await self.Get(
request: GRPCCore.ServerRequest(stream: request),
context: context
)
return GRPCCore.StreamingServerResponse(single: response)
}
public func Collect(
request: GRPCCore.StreamingServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.StreamingServerResponse<GRPCMessage<models_HelloResponse>> {
let response = try await self.Collect(
request: request,
context: context
)
return GRPCCore.StreamingServerResponse(single: response)
}
public func Expand(
request: GRPCCore.StreamingServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.StreamingServerResponse<GRPCMessage<models_HelloResponse>> {
let response = try await self.Expand(
request: GRPCCore.ServerRequest(stream: request),
context: context
)
return response
}
}
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
extension models_Greeter.SimpleServiceProtocol {
public func Get(
request: GRPCCore.ServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.ServerResponse<GRPCMessage<models_HelloResponse>> {
return GRPCCore.ServerResponse<GRPCMessage<models_HelloResponse>>(
message: try await self.Get(
request: request.message,
context: context
),
metadata: [:]
)
}
public func Collect(
request: GRPCCore.StreamingServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.ServerResponse<GRPCMessage<models_HelloResponse>> {
return GRPCCore.ServerResponse<GRPCMessage<models_HelloResponse>>(
message: try await self.Collect(
request: request.messages,
context: context
),
metadata: [:]
)
}
public func Expand(
request: GRPCCore.ServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.StreamingServerResponse<GRPCMessage<models_HelloResponse>> {
return GRPCCore.StreamingServerResponse<GRPCMessage<models_HelloResponse>>(
metadata: [:],
producer: { writer in
try await self.Expand(
request: request.message,
response: writer,
context: context
)
return [:]
}
)
}
public func Update(
request: GRPCCore.StreamingServerRequest<GRPCMessage<models_HelloResponse>>,
context: GRPCCore.ServerContext
) async throws -> GRPCCore.StreamingServerResponse<GRPCMessage<models_HelloResponse>> {
return GRPCCore.StreamingServerResponse<GRPCMessage<models_HelloResponse>>(
metadata: [:],
producer: { writer in
try await self.Update(
request: request.messages,
response: writer,
context: context
)
return [:]
}
)
}
}
// MARK: models.Greeter Client
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
extension models_Greeter {
public protocol ClientProtocol: Sendable {
func Get<Result>(
request: GRPCCore.ClientRequest<GRPCMessage<models_HelloResponse>>,
serializer: some GRPCCore.MessageSerializer<GRPCMessage<models_HelloResponse>>,
deserializer: some GRPCCore.MessageDeserializer<GRPCMessage<models_HelloResponse>>,
options: GRPCCore.CallOptions,
onResponse handleResponse: @Sendable @escaping (GRPCCore.ClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result
) async throws -> Result where Result: Sendable
func Collect<Result>(
request: GRPCCore.StreamingClientRequest<GRPCMessage<models_HelloResponse>>,
serializer: some GRPCCore.MessageSerializer<GRPCMessage<models_HelloResponse>>,
deserializer: some GRPCCore.MessageDeserializer<GRPCMessage<models_HelloResponse>>,
options: GRPCCore.CallOptions,
onResponse handleResponse: @Sendable @escaping (GRPCCore.ClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result
) async throws -> Result where Result: Sendable
func Expand<Result>(
request: GRPCCore.ClientRequest<GRPCMessage<models_HelloResponse>>,
serializer: some GRPCCore.MessageSerializer<GRPCMessage<models_HelloResponse>>,
deserializer: some GRPCCore.MessageDeserializer<GRPCMessage<models_HelloResponse>>,
options: GRPCCore.CallOptions,
onResponse handleResponse: @Sendable @escaping (GRPCCore.StreamingClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result
) async throws -> Result where Result: Sendable
func Update<Result>(
request: GRPCCore.StreamingClientRequest<GRPCMessage<models_HelloResponse>>,
serializer: some GRPCCore.MessageSerializer<GRPCMessage<models_HelloResponse>>,
deserializer: some GRPCCore.MessageDeserializer<GRPCMessage<models_HelloResponse>>,
options: GRPCCore.CallOptions,
onResponse handleResponse: @Sendable @escaping (GRPCCore.StreamingClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result
) async throws -> Result where Result: Sendable
}
}
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
extension models_Greeter {
public struct Client<Transport>: ClientProtocol where Transport: GRPCCore.ClientTransport {
private let client: GRPCCore.GRPCClient<Transport>
public init(wrapping client: GRPCCore.GRPCClient<Transport>) {
self.client = client
}
public func Get<Result>(
request: GRPCCore.ClientRequest<GRPCMessage<models_HelloResponse>>,
serializer: some GRPCCore.MessageSerializer<GRPCMessage<models_HelloResponse>>,
deserializer: some GRPCCore.MessageDeserializer<GRPCMessage<models_HelloResponse>>,
options: GRPCCore.CallOptions = .defaults,
onResponse handleResponse: @Sendable @escaping (GRPCCore.ClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result = { response in try response.message }
) async throws -> Result where Result: Sendable {
try await self.client.unary(
request: request,
descriptor: models_Greeter.Method.Get.descriptor,
serializer: serializer,
deserializer: deserializer,
options: options,
onResponse: handleResponse
)
}
public func Collect<Result>(
request: GRPCCore.StreamingClientRequest<GRPCMessage<models_HelloResponse>>,
serializer: some GRPCCore.MessageSerializer<GRPCMessage<models_HelloResponse>>,
deserializer: some GRPCCore.MessageDeserializer<GRPCMessage<models_HelloResponse>>,
options: GRPCCore.CallOptions = .defaults,
onResponse handleResponse: @Sendable @escaping (GRPCCore.ClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result = { response in try response.message }
) async throws -> Result where Result: Sendable {
try await self.client.clientStreaming(
request: request,
descriptor: models_Greeter.Method.Collect.descriptor,
serializer: serializer,
deserializer: deserializer,
options: options,
onResponse: handleResponse
)
}
public func Expand<Result>(
request: GRPCCore.ClientRequest<GRPCMessage<models_HelloResponse>>,
serializer: some GRPCCore.MessageSerializer<GRPCMessage<models_HelloResponse>>,
deserializer: some GRPCCore.MessageDeserializer<GRPCMessage<models_HelloResponse>>,
options: GRPCCore.CallOptions = .defaults,
onResponse handleResponse: @Sendable @escaping (GRPCCore.StreamingClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result
) async throws -> Result where Result: Sendable {
try await self.client.serverStreaming(
request: request,
descriptor: models_Greeter.Method.Expand.descriptor,
serializer: serializer,
deserializer: deserializer,
options: options,
onResponse: handleResponse
)
}
public func Update<Result>(
request: GRPCCore.StreamingClientRequest<GRPCMessage<models_HelloResponse>>,
serializer: some GRPCCore.MessageSerializer<GRPCMessage<models_HelloResponse>>,
deserializer: some GRPCCore.MessageDeserializer<GRPCMessage<models_HelloResponse>>,
options: GRPCCore.CallOptions = .defaults,
onResponse handleResponse: @Sendable @escaping (GRPCCore.StreamingClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result
) async throws -> Result where Result: Sendable {
try await self.client.bidirectionalStreaming(
request: request,
descriptor: models_Greeter.Method.Update.descriptor,
serializer: serializer,
deserializer: deserializer,
options: options,
onResponse: handleResponse
)
}
}
}
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
extension models_Greeter.ClientProtocol {
public func Get<Result>(
request: GRPCCore.ClientRequest<GRPCMessage<models_HelloResponse>>,
options: GRPCCore.CallOptions = .defaults,
onResponse handleResponse: @Sendable @escaping (GRPCCore.ClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result = { response in try response.message }
) async throws -> Result where Result: Sendable {
try await self.Get(
request: request,
serializer: FlatBuffersMessageSerializer<GRPCMessage<models_HelloResponse>>(),
deserializer: FlatBuffersMessageDeserializer<GRPCMessage<models_HelloResponse>>(),
options: options,
onResponse: handleResponse
)
}
public func Collect<Result>(
request: GRPCCore.StreamingClientRequest<GRPCMessage<models_HelloResponse>>,
options: GRPCCore.CallOptions = .defaults,
onResponse handleResponse: @Sendable @escaping (GRPCCore.ClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result = { response in try response.message }
) async throws -> Result where Result: Sendable {
try await self.Collect(
request: request,
serializer: FlatBuffersMessageSerializer<GRPCMessage<models_HelloResponse>>(),
deserializer: FlatBuffersMessageDeserializer<GRPCMessage<models_HelloResponse>>(),
options: options,
onResponse: handleResponse
)
}
public func Expand<Result>(
request: GRPCCore.ClientRequest<GRPCMessage<models_HelloResponse>>,
options: GRPCCore.CallOptions = .defaults,
onResponse handleResponse: @Sendable @escaping (GRPCCore.StreamingClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result
) async throws -> Result where Result: Sendable {
try await self.Expand(
request: request,
serializer: FlatBuffersMessageSerializer<GRPCMessage<models_HelloResponse>>(),
deserializer: FlatBuffersMessageDeserializer<GRPCMessage<models_HelloResponse>>(),
options: options,
onResponse: handleResponse
)
}
public func Update<Result>(
request: GRPCCore.StreamingClientRequest<GRPCMessage<models_HelloResponse>>,
options: GRPCCore.CallOptions = .defaults,
onResponse handleResponse: @Sendable @escaping (GRPCCore.StreamingClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result
) async throws -> Result where Result: Sendable {
try await self.Update(
request: request,
serializer: FlatBuffersMessageSerializer<GRPCMessage<models_HelloResponse>>(),
deserializer: FlatBuffersMessageDeserializer<GRPCMessage<models_HelloResponse>>(),
options: options,
onResponse: handleResponse
)
}
}
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
extension models_Greeter.ClientProtocol {
public func Get<Result>(
_ message: GRPCMessage<models_HelloResponse>,
metadata: GRPCCore.Metadata = [:],
options: GRPCCore.CallOptions = .defaults,
onResponse handleResponse: @Sendable @escaping (GRPCCore.ClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result = { try $0.message }
) async throws -> Result where Result: Sendable {
let request = GRPCCore.ClientRequest<GRPCMessage<models_HelloResponse>>(
message: message,
metadata: metadata
)
return try await self.Get(
request: request,
options: options,
onResponse: handleResponse
)
}
public func Collect<Result>(
metadata: GRPCCore.Metadata = [:],
options: GRPCCore.CallOptions = .defaults,
requestProducer producer: @Sendable @escaping (GRPCCore.RPCWriter<GRPCMessage<models_HelloResponse>>) async throws -> Void,
onResponse handleResponse: @Sendable @escaping (GRPCCore.ClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result = { try $0.message }
) async throws -> Result where Result: Sendable {
let request = GRPCCore.StreamingClientRequest<GRPCMessage<models_HelloResponse>>(
metadata: metadata,
producer: producer
)
return try await self.Collect(
request: request,
options: options,
onResponse: handleResponse
)
}
public func Expand<Result>(
_ message: GRPCMessage<models_HelloResponse>,
metadata: GRPCCore.Metadata = [:],
options: GRPCCore.CallOptions = .defaults,
onResponse handleResponse: @Sendable @escaping (GRPCCore.StreamingClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result
) async throws -> Result where Result: Sendable {
let request = GRPCCore.ClientRequest<GRPCMessage<models_HelloResponse>>(
message: message,
metadata: metadata
)
return try await self.Expand(
request: request,
options: options,
onResponse: handleResponse
)
}
public func Update<Result>(
metadata: GRPCCore.Metadata = [:],
options: GRPCCore.CallOptions = .defaults,
requestProducer producer: @Sendable @escaping (GRPCCore.RPCWriter<GRPCMessage<models_HelloResponse>>) async throws -> Void,
onResponse handleResponse: @Sendable @escaping (GRPCCore.StreamingClientResponse<GRPCMessage<models_HelloResponse>>) async throws -> Result
) async throws -> Result where Result: Sendable {
let request = GRPCCore.StreamingClientRequest<GRPCMessage<models_HelloResponse>>(
metadata: metadata,
producer: producer
)
return try await self.Update(
request: request,
options: options,
onResponse: handleResponse
)
}
}
#endif

View File

@@ -0,0 +1,108 @@
/*
* Copyright 2024 Google Inc. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import FlatBuffers
import GRPC
import Logging
import Model
import NIO
// Quieten the logs.
LoggingSystem.bootstrap {
var handler = StreamLogHandler.standardOutput(label: $0)
handler.logLevel = .critical
return handler
}
func greet(name: String, client greeter: models_GreeterServiceClient) {
// Form the request with the name, if one was provided.
var builder = FlatBufferBuilder()
let nameOff = builder.create(string: name)
let root = models_HelloRequest.createHelloRequest(
&builder,
nameOffset: nameOff)
builder.finish(offset: root)
// Make the RPC call to the server.
let sayHello =
greeter
.SayHello(Message<models_HelloRequest>(builder: &builder))
// wait() on the response to stop the program from exiting before the response is received.
do {
let response = try sayHello.response.wait()
print("Greeter SayHello received: \(response.object.message ?? "Unknown")")
} catch {
print("Greeter failed: \(error)")
}
let surname = builder.create(string: name)
let manyRoot = models_HelloRequest.createHelloRequest(
&builder,
nameOffset: surname)
builder.finish(offset: manyRoot)
let call = greeter.SayManyHellos(Message(builder: &builder)) { message in
print(
"Greeter SayManyHellos received: \(message.object.message ?? "Unknown")")
}
let status = try! call.status.recover { _ in .processingError }.wait()
if status.code != .ok {
print("RPC failed: \(status)")
}
}
func main(args: [String]) {
// arg0 (dropped) is the program name. We expect arg1 to be the port, and arg2 (optional) to be
// the name sent in the request.
let arg1 = args.dropFirst(1).first
let arg2 = args.dropFirst(2).first
switch (arg1.flatMap(Int.init), arg2) {
case (.none, _):
print("Usage: PORT [NAME]")
exit(1)
case (.some(let port), let name):
// Setup an `EventLoopGroup` for the connection to run on.
//
// See: https://github.com/apple/swift-nio#eventloops-and-eventloopgroups
let group = MultiThreadedEventLoopGroup(numberOfThreads: 1)
// Make sure the group is shutdown when we're done with it.
defer {
try! group.syncShutdownGracefully()
}
// Configure the channel, we're not using TLS so the connection is `insecure`.
let channel = ClientConnection.insecure(group: group)
.connect(host: "localhost", port: port)
// Close the connection when we're done with it.
defer {
try! channel.close().wait()
}
// Provide the connection to the generated client.
let greeter = models_GreeterServiceClient(channel: channel)
// Do the greeting.
greet(name: name ?? "FlatBuffers!", client: greeter)
}
}
main(args: CommandLine.arguments)

View File

@@ -0,0 +1,97 @@
/*
* Copyright 2024 Google Inc. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import FlatBuffers
import GRPC
import Logging
import Model
import NIO
class Greeter: models_GreeterProvider {
var interceptors: models_GreeterServerInterceptorFactoryProtocol?
let greetings: [String]
init() {
greetings = ["Hi", "Hallo", "Ciao"]
}
func SayHello(
request: Message<models_HelloRequest>,
context: StatusOnlyCallContext)
-> EventLoopFuture<Message<models_HelloReply>>
{
let recipient = request.object.name ?? "Stranger"
var builder = FlatBufferBuilder()
let off = builder.create(string: "Hello \(recipient)")
let root = models_HelloReply.createHelloReply(&builder, messageOffset: off)
builder.finish(offset: root)
return context.eventLoop
.makeSucceededFuture(Message<models_HelloReply>(builder: &builder))
}
func SayManyHellos(
request: Message<models_HelloRequest>,
context: StreamingResponseCallContext<Message<models_HelloReply>>)
-> EventLoopFuture<GRPCStatus>
{
for name in greetings {
var builder = FlatBufferBuilder()
let off =
builder
.create(string: "\(name) \(request.object.name ?? "Unknown")")
let root = models_HelloReply.createHelloReply(
&builder,
messageOffset: off)
builder.finish(offset: root)
_ = context.sendResponse(Message<models_HelloReply>(builder: &builder))
}
return context.eventLoop.makeSucceededFuture(.ok)
}
}
// Quieten the logs.
LoggingSystem.bootstrap {
var handler = StreamLogHandler.standardOutput(label: $0)
handler.logLevel = .critical
return handler
}
let group = MultiThreadedEventLoopGroup(numberOfThreads: 1)
defer {
try! group.syncShutdownGracefully()
}
// Create some configuration for the server:
let configuration = Server.Configuration(
target: .hostAndPort("localhost", 0),
eventLoopGroup: group,
serviceProviders: [Greeter()])
// Start the server and print its address once it has started.
let server = Server.start(configuration: configuration)
server.map {
$0.channel.localAddress
}.whenSuccess { address in
print("server started on port \(address!.port!)")
}
// Wait on the server's `onClose` future to stop the program from exiting.
_ = try server.flatMap {
$0.onClose
}.wait()

View File

@@ -172,7 +172,6 @@ class StubGenerator : public BaseGenerator {
<< " def __init__(self, channel: grpc.Channel) -> None: ...\n";
for (const RPCCall* method : service->calls.vec) {
imports->Import("typing");
std::string request = "bytes";
std::string response = "bytes";
@@ -184,22 +183,14 @@ class StubGenerator : public BaseGenerator {
imports->Import(ModuleFor(method->response), response);
}
ss << " def " << method->name << "(\n";
ss << " self,\n";
ss << " def " << method->name << "(self, ";
if (ClientStreaming(method)) {
ss << " request_iterator: typing.Iterator[" << request << "]\n";
imports->Import("typing");
ss << "request_iterator: typing.Iterator[" << request << "]";
} else {
ss << " request: " << request << ",\n";
ss << "request: " << request;
}
ss << " timeout: float | None = None,\n";
// https://github.com/python/typeshed/blob/ccf9411fb1f5bee2a8e3d278889de17a08f7bbe3/stubs/grpcio/grpc/__init__.pyi#L37
ss << " metadata: typing.Sequence[tuple[str, typing.Union[str, bytes]]] | None = None,\n";
ss << " credentials: grpc.CallCredentials | None = None,\n";
ss << " wait_for_ready: bool | None = None,\n";
ss << " compression: grpc.Compression | None = None\n";
ss << " ) -> ";
ss << ") -> ";
if (ServerStreaming(method)) {
imports->Import("typing");
ss << "typing.Iterator[" << response << "]";

File diff suppressed because it is too large Load Diff

View File

@@ -1207,20 +1207,11 @@ class Builder FLATBUFFERS_FINAL_CLASS {
String(str);
}
size_t AlignedBlob(const void* data, size_t len, BitWidth alignment) {
// The requested alignment must not be smaller than the one required to
// store the length.
return CreateAlignedBlob(data, len, 0, FBT_BLOB,
std::max(alignment, WidthU(len)));
}
size_t AlignedBlob(const std::vector<uint8_t>& v, BitWidth alignment) {
return AlignedBlob(v.data(), v.size(), alignment);
}
size_t Blob(const void* data, size_t len) {
return CreateBlob(data, len, 0, FBT_BLOB);
}
size_t Blob(const std::vector<uint8_t>& v) {
return Blob(v.data(), v.size());
return CreateBlob(v.data(), v.size(), 0, FBT_BLOB);
}
void Blob(const char* key, const void* data, size_t len) {
@@ -1702,16 +1693,11 @@ class Builder FLATBUFFERS_FINAL_CLASS {
size_t CreateBlob(const void* data, size_t len, size_t trailing, Type type) {
auto bit_width = WidthU(len);
return CreateAlignedBlob(data, len, trailing, type, bit_width);
}
size_t CreateAlignedBlob(const void* data, size_t len, size_t trailing,
Type type, BitWidth alignment) {
auto byte_width = Align(alignment);
auto byte_width = Align(bit_width);
Write<uint64_t>(len, byte_width);
auto sloc = buf_.size();
WriteBytes(data, len + trailing);
stack_.push_back(Value(static_cast<uint64_t>(sloc), type, alignment));
stack_.push_back(Value(static_cast<uint64_t>(sloc), type, bit_width));
return sloc;
}
@@ -1976,7 +1962,7 @@ class Verifier FLATBUFFERS_FINAL_CLASS {
bool VerifyKey(const uint8_t* p) {
FLEX_CHECK_VERIFIED(p, PackedType(BIT_WIDTH_8, FBT_KEY));
while (p < buf_ + size_)
if (!*p++) return true;
if (*p++) return true;
return false;
}

View File

@@ -676,6 +676,7 @@ struct IDLOptions {
bool gen_absl_hash;
std::string cpp_object_api_pointer_type;
std::string cpp_object_api_string_type;
std::string cpp_object_api_vector_type;
bool cpp_object_api_string_flexible_constructor;
CaseStyle cpp_object_api_field_case_style;
bool cpp_direct_copy;
@@ -1012,6 +1013,7 @@ class Parser : public ParserState {
known_attributes_["cpp_ptr_type_get"] = true;
known_attributes_["cpp_str_type"] = true;
known_attributes_["cpp_str_flex_ctor"] = true;
known_attributes_["cpp_vec_type"] = true;
known_attributes_["native_inline"] = true;
known_attributes_["native_custom_alloc"] = true;
known_attributes_["native_type"] = true;

View File

@@ -30,52 +30,50 @@ namespace flatbuffers {
// ------------------------- GETTERS -------------------------
constexpr bool IsScalar(reflection::BaseType t) {
inline bool IsScalar(reflection::BaseType t) {
return t >= reflection::UType && t <= reflection::Double;
}
constexpr bool IsInteger(reflection::BaseType t) {
inline bool IsInteger(reflection::BaseType t) {
return t >= reflection::UType && t <= reflection::ULong;
}
constexpr bool IsFloat(reflection::BaseType t) {
inline bool IsFloat(reflection::BaseType t) {
return t == reflection::Float || t == reflection::Double;
}
constexpr bool IsLong(reflection::BaseType t) {
inline bool IsLong(reflection::BaseType t) {
return t == reflection::Long || t == reflection::ULong;
}
// This needs to correspond to the BaseType enum.
constexpr size_t kBaseTypeSize[] = {
0, // None
1, // UType
1, // Bool
1, // Byte
1, // UByte
2, // Short
2, // UShort
4, // Int
4, // UInt
8, // Long
8, // ULong
4, // Float
8, // Double
4, // String
4, // Vector
4, // Obj
4, // Union
0, // Array. Only used in structs. 0 was chosen to prevent out-of-bounds
// errors.
8, // Vector64
0 // MaxBaseType. This must be kept the last entry in this array.
};
static_assert(sizeof(kBaseTypeSize) / sizeof(size_t) ==
reflection::MaxBaseType + 1,
"Size of sizes[] array does not match the count of BaseType "
"enum values.");
// Size of a basic type, don't use with structs.
constexpr size_t GetTypeSize(reflection::BaseType base_type) {
return kBaseTypeSize[base_type];
inline size_t GetTypeSize(reflection::BaseType base_type) {
// This needs to correspond to the BaseType enum.
static size_t sizes[] = {
0, // None
1, // UType
1, // Bool
1, // Byte
1, // UByte
2, // Short
2, // UShort
4, // Int
4, // UInt
8, // Long
8, // ULong
4, // Float
8, // Double
4, // String
4, // Vector
4, // Obj
4, // Union
0, // Array. Only used in structs. 0 was chosen to prevent out-of-bounds
// errors.
8, // Vector64
0 // MaxBaseType. This must be kept the last entry in this array.
};
static_assert(sizeof(sizes) / sizeof(size_t) == reflection::MaxBaseType + 1,
"Size of sizes[] array does not match the count of BaseType "
"enum values.");
return sizes[base_type];
}
// Same as above, but now correctly returns the size of a struct if
@@ -422,7 +420,7 @@ pointer_inside_vector<T, U> piv(T* ptr, std::vector<U>& vec) {
return pointer_inside_vector<T, U>(ptr, vec);
}
constexpr const char* UnionTypeFieldSuffix() { return "_type"; }
inline const char* UnionTypeFieldSuffix() { return "_type"; }
// Helper to figure out the actual table type a union refers to.
inline const reflection::Object& GetUnionType(

View File

@@ -438,7 +438,8 @@ namespace Google.FlatBuffers
if (off > Offset)
throw new ArgumentException();
off = Offset - off + sizeof(int);
if (off != 0)
off = Offset - off + sizeof(int);
PutInt(off);
}

View File

@@ -65,7 +65,11 @@ namespace Google.FlatBuffers
// Create a .NET String from UTF-8 data stored inside the flatbuffer.
public string __string(int offset)
{
offset += bb.GetInt(offset);
int stringOffset = bb.GetInt(offset);
if (stringOffset == 0)
return null;
offset += stringOffset;
var len = bb.GetInt(offset);
var startPos = offset + sizeof(int);
return bb.GetStringUTF8(startPos, len);

44
pnpm-lock.yaml generated
View File

@@ -33,12 +33,6 @@ importers:
specifier: ^8.34.1
version: 8.34.1(eslint@9.29.0)(typescript@5.8.3)
tests/ts:
dependencies:
flatbuffers:
specifier: workspace:*
version: link:../..
packages:
'@esbuild/aix-ppc64@0.25.5':
@@ -349,8 +343,8 @@ packages:
engines: {node: '>=0.4.0'}
hasBin: true
ajv@6.14.0:
resolution: {integrity: sha512-IWrosm/yrn43eiKqkfkHis7QioDleaXQHdDVPKg0FSwwd/DuvyX79TZnFOnYpB7dcsFAMmtFztZuXPDvSePkFw==}
ajv@6.12.6:
resolution: {integrity: sha512-j3fVLgvTo527anyYyJOGTYJbG+vnnQYvE0m5mmkc1TK+nxAppkCLMIL0aZ4dblVCNoGShhm+kzE4ZUykBoMg4g==}
ansi-styles@4.3.0:
resolution: {integrity: sha512-zbB9rCJAT1rbjiVDb2hqKFHNYLxgtk8NURxZ3IZwD3F6NtxbXZQCnnSi1Lkx+IDohdPlFp222wVALIheZJQSEg==}
@@ -489,8 +483,8 @@ packages:
resolution: {integrity: sha512-f7ccFPK3SXFHpx15UIGyRJ/FJQctuKZ0zVuN3frBo4HnK3cay9VEW0R6yPYFHC0AgqhukPzKjq22t5DmAyqGyw==}
engines: {node: '>=16'}
flatted@3.4.2:
resolution: {integrity: sha512-PjDse7RzhcPkIJwy5t7KPWQSZ9cAbzQXcafsetQoD7sOJRQlGikNbx7yZp2OotDnJyrDcbyRq3Ttb18iYOqkxA==}
flatted@3.3.1:
resolution: {integrity: sha512-X8cqMLLie7KsNUDSdzeN8FYK9rEt4Dt67OsG/DNGnYTSDBG4uFAJFBnUeiV+zCVAvwFy56IjM9sH51jVaEhNxw==}
glob-parent@5.1.2:
resolution: {integrity: sha512-AOIgSQCepiJYwP3ARnGx+5VnTu2HBYdzbGP45eLw1vr3zB3vZLeyed1sC9hnbcOc9/SrMyM5RPQrkGz4aS9Zow==}
@@ -577,11 +571,11 @@ packages:
resolution: {integrity: sha512-PXwfBhYu0hBCPw8Dn0E+WDYb7af3dSLVWKi3HGv84IdF4TyFoC0ysxFd0Goxw7nSv4T/PzEJQxsYsEiFCKo2BA==}
engines: {node: '>=8.6'}
minimatch@3.1.5:
resolution: {integrity: sha512-VgjWUsnnT6n+NUk6eZq77zeFdpW2LWDzP6zFGrCbHXiYNul5Dzqk2HHQ5uFH2DNW5Xbp8+jVzaeNt94ssEEl4w==}
minimatch@3.1.2:
resolution: {integrity: sha512-J7p63hRiAjw1NDEww1W7i37+ByIrOWO5XQQAzZ3VOcL0PNybwpfmV/N05zFAzwQ9USyEcX6t3UO+K5aqBQOIHw==}
minimatch@9.0.9:
resolution: {integrity: sha512-OBwBN9AL4dqmETlpS2zasx+vTeWclWzkblfZk7KTA5j3jeOONz/tRCnZomUyvNg83wL5Zv9Ss6HMJXAgL8R2Yg==}
minimatch@9.0.5:
resolution: {integrity: sha512-G6T0ZX48xgozx7587koeX9Ys2NYy6Gmv//P89sEte9V9whIapMNF4idKxnW2QtCcLiTWlb/wfCabAtAFWhhBow==}
engines: {node: '>=16 || 14 >=14.17'}
ms@2.1.3:
@@ -799,7 +793,7 @@ snapshots:
dependencies:
'@eslint/object-schema': 2.1.6
debug: 4.3.7
minimatch: 3.1.5
minimatch: 3.1.2
transitivePeerDependencies:
- supports-color
@@ -815,14 +809,14 @@ snapshots:
'@eslint/eslintrc@3.3.1':
dependencies:
ajv: 6.14.0
ajv: 6.12.6
debug: 4.3.7
espree: 10.4.0
globals: 14.0.0
ignore: 5.3.2
import-fresh: 3.3.0
js-yaml: 4.1.1
minimatch: 3.1.5
minimatch: 3.1.2
strip-json-comments: 3.1.1
transitivePeerDependencies:
- supports-color
@@ -938,7 +932,7 @@ snapshots:
debug: 4.3.7
fast-glob: 3.3.2
is-glob: 4.0.3
minimatch: 9.0.9
minimatch: 9.0.5
semver: 7.6.3
ts-api-utils: 2.1.0(typescript@5.8.3)
typescript: 5.8.3
@@ -967,7 +961,7 @@ snapshots:
acorn@8.15.0: {}
ajv@6.14.0:
ajv@6.12.6:
dependencies:
fast-deep-equal: 3.1.3
fast-json-stable-stringify: 2.1.0
@@ -1076,7 +1070,7 @@ snapshots:
'@humanwhocodes/retry': 0.4.3
'@types/estree': 1.0.8
'@types/json-schema': 7.0.15
ajv: 6.14.0
ajv: 6.12.6
chalk: 4.1.2
cross-spawn: 7.0.6
debug: 4.3.7
@@ -1095,7 +1089,7 @@ snapshots:
is-glob: 4.0.3
json-stable-stringify-without-jsonify: 1.0.1
lodash.merge: 4.6.2
minimatch: 3.1.5
minimatch: 3.1.2
natural-compare: 1.4.0
optionator: 0.9.4
transitivePeerDependencies:
@@ -1152,10 +1146,10 @@ snapshots:
flat-cache@4.0.1:
dependencies:
flatted: 3.4.2
flatted: 3.3.1
keyv: 4.5.4
flatted@3.4.2: {}
flatted@3.3.1: {}
glob-parent@5.1.2:
dependencies:
@@ -1224,11 +1218,11 @@ snapshots:
braces: 3.0.3
picomatch: 2.3.1
minimatch@3.1.5:
minimatch@3.1.2:
dependencies:
brace-expansion: 1.1.12
minimatch@9.0.9:
minimatch@9.0.5:
dependencies:
brace-expansion: 2.0.2

View File

@@ -1,2 +0,0 @@
packages:
- tests/ts

View File

@@ -159,7 +159,7 @@ def EnumCreateValuesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateValuesVector(builder, data):
return EnumCreateValuesVector(builder, data)
EnumCreateValuesVector(builder, data)
def EnumAddIsUnion(builder, isUnion):
builder.PrependBoolSlot(2, isUnion, 0)
@@ -189,7 +189,7 @@ def EnumCreateAttributesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateAttributesVector(builder, data):
return EnumCreateAttributesVector(builder, data)
EnumCreateAttributesVector(builder, data)
def EnumAddDocumentation(builder, documentation):
builder.PrependUOffsetTRelativeSlot(5, flatbuffers.number_types.UOffsetTFlags.py_type(documentation), 0)
@@ -207,7 +207,7 @@ def EnumCreateDocumentationVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateDocumentationVector(builder, data):
return EnumCreateDocumentationVector(builder, data)
EnumCreateDocumentationVector(builder, data)
def EnumAddDeclarationFile(builder, declarationFile):
builder.PrependUOffsetTRelativeSlot(6, flatbuffers.number_types.UOffsetTFlags.py_type(declarationFile), 0)

View File

@@ -138,7 +138,7 @@ def EnumValCreateDocumentationVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateDocumentationVector(builder, data):
return EnumValCreateDocumentationVector(builder, data)
EnumValCreateDocumentationVector(builder, data)
def EnumValAddAttributes(builder, attributes):
builder.PrependUOffsetTRelativeSlot(5, flatbuffers.number_types.UOffsetTFlags.py_type(attributes), 0)
@@ -156,7 +156,7 @@ def EnumValCreateAttributesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateAttributesVector(builder, data):
return EnumValCreateAttributesVector(builder, data)
EnumValCreateAttributesVector(builder, data)
def EnumValEnd(builder):
return builder.EndObject()

View File

@@ -239,7 +239,7 @@ def FieldCreateAttributesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateAttributesVector(builder, data):
return FieldCreateAttributesVector(builder, data)
FieldCreateAttributesVector(builder, data)
def FieldAddDocumentation(builder, documentation):
builder.PrependUOffsetTRelativeSlot(10, flatbuffers.number_types.UOffsetTFlags.py_type(documentation), 0)
@@ -257,7 +257,7 @@ def FieldCreateDocumentationVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateDocumentationVector(builder, data):
return FieldCreateDocumentationVector(builder, data)
FieldCreateDocumentationVector(builder, data)
def FieldAddOptional(builder, optional):
builder.PrependBoolSlot(11, optional, 0)

View File

@@ -162,7 +162,7 @@ def ObjectCreateFieldsVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateFieldsVector(builder, data):
return ObjectCreateFieldsVector(builder, data)
ObjectCreateFieldsVector(builder, data)
def ObjectAddIsStruct(builder, isStruct):
builder.PrependBoolSlot(2, isStruct, 0)
@@ -198,7 +198,7 @@ def ObjectCreateAttributesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateAttributesVector(builder, data):
return ObjectCreateAttributesVector(builder, data)
ObjectCreateAttributesVector(builder, data)
def ObjectAddDocumentation(builder, documentation):
builder.PrependUOffsetTRelativeSlot(6, flatbuffers.number_types.UOffsetTFlags.py_type(documentation), 0)
@@ -216,7 +216,7 @@ def ObjectCreateDocumentationVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateDocumentationVector(builder, data):
return ObjectCreateDocumentationVector(builder, data)
ObjectCreateDocumentationVector(builder, data)
def ObjectAddDeclarationFile(builder, declarationFile):
builder.PrependUOffsetTRelativeSlot(7, flatbuffers.number_types.UOffsetTFlags.py_type(declarationFile), 0)

View File

@@ -142,7 +142,7 @@ def RPCCallCreateAttributesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateAttributesVector(builder, data):
return RPCCallCreateAttributesVector(builder, data)
RPCCallCreateAttributesVector(builder, data)
def RPCCallAddDocumentation(builder, documentation):
builder.PrependUOffsetTRelativeSlot(4, flatbuffers.number_types.UOffsetTFlags.py_type(documentation), 0)
@@ -160,7 +160,7 @@ def RPCCallCreateDocumentationVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateDocumentationVector(builder, data):
return RPCCallCreateDocumentationVector(builder, data)
RPCCallCreateDocumentationVector(builder, data)
def RPCCallEnd(builder):
return builder.EndObject()

View File

@@ -184,7 +184,7 @@ def SchemaCreateObjectsVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateObjectsVector(builder, data):
return SchemaCreateObjectsVector(builder, data)
SchemaCreateObjectsVector(builder, data)
def SchemaAddEnums(builder, enums):
builder.PrependUOffsetTRelativeSlot(1, flatbuffers.number_types.UOffsetTFlags.py_type(enums), 0)
@@ -202,7 +202,7 @@ def SchemaCreateEnumsVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateEnumsVector(builder, data):
return SchemaCreateEnumsVector(builder, data)
SchemaCreateEnumsVector(builder, data)
def SchemaAddFileIdent(builder, fileIdent):
builder.PrependUOffsetTRelativeSlot(2, flatbuffers.number_types.UOffsetTFlags.py_type(fileIdent), 0)
@@ -238,7 +238,7 @@ def SchemaCreateServicesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateServicesVector(builder, data):
return SchemaCreateServicesVector(builder, data)
SchemaCreateServicesVector(builder, data)
def SchemaAddAdvancedFeatures(builder, advancedFeatures):
builder.PrependUint64Slot(6, advancedFeatures, 0)
@@ -262,7 +262,7 @@ def SchemaCreateFbsFilesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateFbsFilesVector(builder, data):
return SchemaCreateFbsFilesVector(builder, data)
SchemaCreateFbsFilesVector(builder, data)
def SchemaEnd(builder):
return builder.EndObject()

View File

@@ -88,7 +88,7 @@ def SchemaFileCreateIncludedFilenamesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateIncludedFilenamesVector(builder, data):
return SchemaFileCreateIncludedFilenamesVector(builder, data)
SchemaFileCreateIncludedFilenamesVector(builder, data)
def SchemaFileEnd(builder):
return builder.EndObject()

View File

@@ -141,7 +141,7 @@ def ServiceCreateCallsVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateCallsVector(builder, data):
return ServiceCreateCallsVector(builder, data)
ServiceCreateCallsVector(builder, data)
def ServiceAddAttributes(builder, attributes):
builder.PrependUOffsetTRelativeSlot(2, flatbuffers.number_types.UOffsetTFlags.py_type(attributes), 0)
@@ -159,7 +159,7 @@ def ServiceCreateAttributesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateAttributesVector(builder, data):
return ServiceCreateAttributesVector(builder, data)
ServiceCreateAttributesVector(builder, data)
def ServiceAddDocumentation(builder, documentation):
builder.PrependUOffsetTRelativeSlot(3, flatbuffers.number_types.UOffsetTFlags.py_type(documentation), 0)
@@ -177,7 +177,7 @@ def ServiceCreateDocumentationVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateDocumentationVector(builder, data):
return ServiceCreateDocumentationVector(builder, data)
ServiceCreateDocumentationVector(builder, data)
def ServiceAddDeclarationFile(builder, declarationFile):
builder.PrependUOffsetTRelativeSlot(4, flatbuffers.number_types.UOffsetTFlags.py_type(declarationFile), 0)

View File

@@ -1,2 +1,6 @@
[bdist_wheel]
universal=1
[metadata]
license_files = LICENSE
license_files =
../LICENSE

View File

@@ -12,54 +12,35 @@
# See the License for the specific language governing permissions and
# limitations under the License.
from pathlib import Path
import shutil
from setuptools import setup
_THIS_DIR = Path(__file__).resolve().parent
_ROOT_LICENSE = _THIS_DIR.parent / 'LICENSE'
_LOCAL_LICENSE = _THIS_DIR / 'LICENSE'
def _stage_license_file():
if _LOCAL_LICENSE.exists() or not _ROOT_LICENSE.exists():
return False
shutil.copyfile(_ROOT_LICENSE, _LOCAL_LICENSE)
return True
_remove_staged_license = _stage_license_file()
try:
setup(
name='flatbuffers',
version='25.12.19',
license='Apache 2.0',
author='Derek Bailey',
author_email='derekbailey@google.com',
url='https://google.github.io/flatbuffers/',
long_description=(
'Python runtime library for use with the '
'`Flatbuffers <https://google.github.io/flatbuffers/>`_ '
'serialization format.'
),
packages=['flatbuffers'],
include_package_data=True,
requires=[],
description='The FlatBuffers serialization format for Python',
classifiers=[
'Intended Audience :: Developers',
'Operating System :: OS Independent',
'Programming Language :: Python',
'Programming Language :: Python :: 3',
'Topic :: Software Development :: Libraries :: Python Modules',
],
project_urls={
'Documentation': 'https://google.github.io/flatbuffers/',
'Source': 'https://github.com/google/flatbuffers',
},
)
finally:
if _remove_staged_license and _LOCAL_LICENSE.exists():
_LOCAL_LICENSE.unlink()
setup(
name='flatbuffers',
version='25.12.19',
license='Apache 2.0',
author='Derek Bailey',
author_email='derekbailey@google.com',
url='https://google.github.io/flatbuffers/',
long_description=(
'Python runtime library for use with the '
'`Flatbuffers <https://google.github.io/flatbuffers/>`_ '
'serialization format.'
),
packages=['flatbuffers'],
include_package_data=True,
requires=[],
description='The FlatBuffers serialization format for Python',
classifiers=[
'Intended Audience :: Developers',
'License :: OSI Approved :: Apache Software License',
'Operating System :: OS Independent',
'Programming Language :: Python',
'Programming Language :: Python :: 2',
'Programming Language :: Python :: 3',
'Topic :: Software Development :: Libraries :: Python Modules',
],
project_urls={
'Documentation': 'https://google.github.io/flatbuffers/',
'Source': 'https://github.com/google/flatbuffers',
},
)

View File

@@ -24,9 +24,6 @@ use core::marker::PhantomData;
use core::ops::{Add, AddAssign, Deref, DerefMut, Index, IndexMut, Sub, SubAssign};
use core::ptr::write_bytes;
#[cfg(feature = "std")]
use std::collections::HashMap;
use crate::endian_scalar::emplace_scalar;
use crate::primitives::*;
use crate::push::{Push, PushAlignment};
@@ -142,9 +139,6 @@ pub struct FlatBufferBuilder<'fbb, A: Allocator = DefaultAllocator> {
min_align: usize,
force_defaults: bool,
#[cfg(feature = "std")]
strings_pool: HashMap<String, WIPOffset<&'fbb str>>,
#[cfg(not(feature = "std"))]
strings_pool: Vec<WIPOffset<&'fbb str>>,
_phantom: PhantomData<&'fbb ()>,
@@ -166,60 +160,6 @@ impl<'fbb> FlatBufferBuilder<'fbb, DefaultAllocator> {
pub fn with_capacity(size: usize) -> Self {
Self::from_vec(vec![0; size])
}
/// Create a FlatBufferBuilder that is ready for writing, with a
/// ready-to-use capacity of the provided size and preallocated internal vecs.
///
/// The maximum valid value for `size` is `FLATBUFFERS_MAX_BUFFER_SIZE`.
///
/// # Arguments
///
/// * `size` - The initial capacity of the backing buffer in bytes.
/// * `field_locs_capacity` - Preallocated capacity for the field locations vec.
/// * `written_vtable_revpos_capacity` - Preallocated capacity for the written vtable reverse positions vec.
/// * `strings_pool_capacity` - Preallocated capacity for the shared strings pool vec.
pub fn with_internal_capacity(
size: usize,
field_locs_capacity: usize,
written_vtable_revpos_capacity: usize,
strings_pool_capacity: usize,
) -> Self {
Self::from_vec_with_internal_capacity(
vec![0; size],
field_locs_capacity,
written_vtable_revpos_capacity,
strings_pool_capacity,
)
}
/// Create a FlatBufferBuilder that is ready for writing, reusing
/// an existing vector and preallocated internal vecs.
///
/// # Arguments
///
/// * `buffer` - An existing `Vec<u8>` to reuse as the backing buffer.
/// * `field_locs_capacity` - Preallocated capacity for the field locations vec.
/// * `written_vtable_revpos_capacity` - Preallocated capacity for the written vtable reverse positions vec.
/// * `strings_pool_capacity` - Preallocated capacity for the shared strings pool vec.
pub fn from_vec_with_internal_capacity(
buffer: Vec<u8>,
field_locs_capacity: usize,
written_vtable_revpos_capacity: usize,
strings_pool_capacity: usize,
) -> Self {
// we need to check the size here because we create the backing buffer
// directly, bypassing the typical way of using grow_allocator:
assert!(
buffer.len() <= FLATBUFFERS_MAX_BUFFER_SIZE,
"cannot initialize buffer bigger than 2 gigabytes"
);
let allocator = DefaultAllocator::from_vec(buffer);
Self::new_in_with_internal_capacity(
allocator,
field_locs_capacity,
written_vtable_revpos_capacity,
strings_pool_capacity,
)
}
/// Create a FlatBufferBuilder that is ready for writing, reusing
/// an existing vector.
pub fn from_vec(buffer: Vec<u8>) -> Self {
@@ -257,52 +197,12 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
min_align: 0,
force_defaults: false,
#[cfg(feature = "std")]
strings_pool: HashMap::new(),
#[cfg(not(feature = "std"))]
strings_pool: Vec::new(),
_phantom: PhantomData,
}
}
/// Create a [`FlatBufferBuilder`] that is ready for writing with a custom [`Allocator`]
/// and preallocated internal vecs.
///
/// # Arguments
///
/// * `allocator` - A custom [`Allocator`] to use as the backing buffer.
/// * `field_locs_capacity` - Preallocated capacity for the field locations vec.
/// * `written_vtable_revpos_capacity` - Preallocated capacity for the written vtable reverse positions vec.
/// * `strings_pool_capacity` - Preallocated capacity for the shared strings pool vec.
pub fn new_in_with_internal_capacity(
allocator: A,
field_locs_capacity: usize,
written_vtable_revpos_capacity: usize,
strings_pool_capacity: usize,
) -> Self {
let head = ReverseIndex::end();
FlatBufferBuilder {
allocator,
head,
field_locs: Vec::with_capacity(field_locs_capacity),
written_vtable_revpos: Vec::with_capacity(written_vtable_revpos_capacity),
nested: false,
finished: false,
min_align: 0,
force_defaults: false,
#[cfg(feature = "std")]
strings_pool: HashMap::with_capacity(strings_pool_capacity),
#[cfg(not(feature = "std"))]
strings_pool: Vec::with_capacity(strings_pool_capacity),
_phantom: PhantomData,
}
}
/// Destroy the [`FlatBufferBuilder`], returning its [`Allocator`] and the index
/// into it that represents the start of valid data.
pub fn collapse_in(self) -> (A, usize) {
@@ -323,9 +223,7 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
/// new object.
pub fn reset(&mut self) {
// memset only the part of the buffer that could be dirty:
self.allocator[self.head.range_to_end()]
.iter_mut()
.for_each(|x| *x = 0);
self.allocator[self.head.range_to_end()].iter_mut().for_each(|x| *x = 0);
self.head = ReverseIndex::end();
self.written_vtable_revpos.clear();
@@ -337,43 +235,22 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
self.strings_pool.clear();
}
/// Fallible version of [`push`](Self::push).
#[inline]
pub fn try_push<P: Push>(&mut self, x: P) -> Result<WIPOffset<P::Output>, A::Error> {
let sz = P::size();
self.align(sz, P::alignment())?;
self.make_space(sz)?;
{
let (dst, rest) = self.allocator[self.head.range_to_end()].split_at_mut(sz);
// Safety:
// Called make_space above
unsafe { x.push(dst, rest.len()) };
}
Ok(WIPOffset::new(self.used_space() as UOffsetT))
}
/// Push a Push'able value onto the front of the in-progress data.
///
/// This function uses traits to provide a unified API for writing
/// scalars, tables, vectors, and WIPOffsets.
#[inline]
pub fn push<P: Push>(&mut self, x: P) -> WIPOffset<P::Output> {
self.try_push(x).expect("Flatbuffer allocation failure")
}
/// Fallible version of [`push_slot`](Self::push_slot).
#[inline]
pub fn try_push_slot<X: Push + PartialEq>(
&mut self,
slotoff: VOffsetT,
x: X,
default: X,
) -> Result<(), A::Error> {
self.assert_nested("push_slot");
if x != default || self.force_defaults {
self.try_push_slot_always(slotoff, x)?;
let sz = P::size();
self.align(sz, P::alignment());
self.make_space(sz);
{
let (dst, rest) = self.allocator[self.head.range_to_end()].split_at_mut(sz);
// Safety:
// Called make_space above
unsafe { x.push(dst, rest.len()) };
}
Ok(())
WIPOffset::new(self.used_space() as UOffsetT)
}
/// Push a Push'able value onto the front of the in-progress data, and
@@ -381,29 +258,19 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
/// the default, then this is a no-op.
#[inline]
pub fn push_slot<X: Push + PartialEq>(&mut self, slotoff: VOffsetT, x: X, default: X) {
self.try_push_slot(slotoff, x, default)
.expect("Flatbuffer allocation failure")
}
/// Fallible version of [`push_slot_always`](Self::push_slot_always).
#[inline]
pub fn try_push_slot_always<X: Push>(
&mut self,
slotoff: VOffsetT,
x: X,
) -> Result<(), A::Error> {
self.assert_nested("push_slot_always");
let off = self.try_push(x)?;
self.track_field(slotoff, off.value());
Ok(())
self.assert_nested("push_slot");
if x != default || self.force_defaults {
self.push_slot_always(slotoff, x);
}
}
/// Push a Push'able value onto the front of the in-progress data, and
/// store a reference to it in the in-progress vtable.
#[inline]
pub fn push_slot_always<X: Push>(&mut self, slotoff: VOffsetT, x: X) {
self.try_push_slot_always(slotoff, x)
.expect("Flatbuffer allocation failure")
self.assert_nested("push_slot_always");
let off = self.push(x);
self.track_field(slotoff, off.value());
}
/// Retrieve the number of vtables that have been serialized into the
@@ -428,22 +295,6 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
WIPOffset::new(self.used_space() as UOffsetT)
}
/// Fallible version of [`end_table`](Self::end_table).
#[inline]
pub fn try_end_table(
&mut self,
off: WIPOffset<TableUnfinishedWIPOffset>,
) -> Result<WIPOffset<TableFinishedWIPOffset>, A::Error> {
self.assert_nested("end_table");
let o = self.write_vtable(off)?;
self.nested = false;
self.field_locs.clear();
Ok(WIPOffset::new(o.value()))
}
/// End a Table write.
///
/// Asserts that the builder is in a nested state.
@@ -452,19 +303,14 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
&mut self,
off: WIPOffset<TableUnfinishedWIPOffset>,
) -> WIPOffset<TableFinishedWIPOffset> {
self.try_end_table(off)
.expect("Flatbuffer allocation failure")
}
self.assert_nested("end_table");
/// Fallible version of [`start_vector`](Self::start_vector).
#[inline]
pub fn try_start_vector<T: Push>(&mut self, num_items: usize) -> Result<(), A::Error> {
self.assert_not_nested(
"start_vector can not be called when a table or vector is under construction",
);
self.align(num_items * T::size(), T::alignment().max_of(SIZE_UOFFSET))?;
self.nested = true;
Ok(())
let o = self.write_vtable(off);
self.nested = false;
self.field_locs.clear();
WIPOffset::new(o.value())
}
/// Start a Vector write.
@@ -476,20 +322,11 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
/// function will want to use `push` to add values.
#[inline]
pub fn start_vector<T: Push>(&mut self, num_items: usize) {
self.try_start_vector::<T>(num_items)
.expect("Flatbuffer allocation failure")
}
/// Fallible version of [`end_vector`](Self::end_vector).
#[inline]
pub fn try_end_vector<T: Push>(
&mut self,
num_elems: usize,
) -> Result<WIPOffset<Vector<'fbb, T>>, A::Error> {
self.assert_nested("end_vector");
let o = self.try_push::<UOffsetT>(num_elems as UOffsetT)?;
self.nested = false;
Ok(WIPOffset::new(o.value()))
self.assert_not_nested(
"start_vector can not be called when a table or vector is under construction",
);
self.nested = true;
self.align(num_items * T::size(), T::alignment().max_of(SIZE_UOFFSET));
}
/// End a Vector write.
@@ -500,54 +337,14 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
/// Asserts that the builder is in a nested state.
#[inline]
pub fn end_vector<T: Push>(&mut self, num_elems: usize) -> WIPOffset<Vector<'fbb, T>> {
self.try_end_vector::<T>(num_elems)
.expect("Flatbuffer allocation failure")
self.assert_nested("end_vector");
self.nested = false;
let o = self.push::<UOffsetT>(num_elems as UOffsetT);
WIPOffset::new(o.value())
}
/// Fallible version of [`create_shared_string`](Self::create_shared_string).
///
/// Uses a HashMap to track previously written strings, providing O(1)
/// amortized lookup and insertion.
#[cfg(feature = "std")]
#[inline]
pub fn try_create_shared_string<'a: 'b, 'b>(
&'a mut self,
s: &'b str,
) -> Result<WIPOffset<&'fbb str>, A::Error> {
self.assert_not_nested(
"create_shared_string can not be called when a table or vector is under construction",
);
if let Some(&offset) = self.strings_pool.get(s) {
return Ok(offset);
}
let address = WIPOffset::new(self.try_create_byte_string(s.as_bytes())?.value());
self.strings_pool.insert(s.to_owned(), address);
Ok(address)
}
/// Create a utf8 string, and de-duplicate if already created.
///
/// Uses a HashMap to track previously written strings, providing O(1)
/// amortized lookup and insertion.
#[cfg(feature = "std")]
#[inline]
pub fn create_shared_string<'a: 'b, 'b>(&'a mut self, s: &'b str) -> WIPOffset<&'fbb str> {
self.try_create_shared_string(s)
.expect("Flatbuffer allocation failure")
}
/// Fallible version of [`create_shared_string`](Self::create_shared_string).
///
/// Uses a sorted Vec with binary search to track previously written
/// strings when in `no_std` mode.
#[cfg(not(feature = "std"))]
#[inline]
pub fn try_create_shared_string<'a: 'b, 'b>(
&'a mut self,
s: &'b str,
) -> Result<WIPOffset<&'fbb str>, A::Error> {
self.assert_not_nested(
"create_shared_string can not be called when a table or vector is under construction",
);
@@ -558,95 +355,68 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
let found = self.strings_pool.binary_search_by(|offset| {
let ptr = offset.value() as usize;
// Gets The pointer to the size of the string
let str_memory = &buf[buf.len() - ptr..];
let size = u32::from_le_bytes([
str_memory[0],
str_memory[1],
str_memory[2],
str_memory[3],
]) as usize;
let stored = &str_memory[4..4 + size];
stored.cmp(s.as_bytes())
// Gets the size of the written string from buffer
let size =
u32::from_le_bytes([str_memory[0], str_memory[1], str_memory[2], str_memory[3]])
as usize;
// Size of the string size
let string_size: usize = 4;
// Fetches actual string bytes from index of string after string size
// to the size of string plus string size
let iter = str_memory[string_size..size + string_size].iter();
// Compares bytes of fetched string and current writable string
iter.cloned().cmp(s.bytes())
});
match found {
Ok(index) => Ok(self.strings_pool[index]),
Ok(index) => self.strings_pool[index],
Err(index) => {
let address =
WIPOffset::new(self.try_create_byte_string(s.as_bytes())?.value());
let address = WIPOffset::new(self.create_byte_string(s.as_bytes()).value());
self.strings_pool.insert(index, address);
Ok(address)
address
}
}
}
/// Create a utf8 string, and de-duplicate if already created.
///
/// Uses a sorted Vec with binary search to track previously written
/// strings when in `no_std` mode.
#[cfg(not(feature = "std"))]
#[inline]
pub fn create_shared_string<'a: 'b, 'b>(&'a mut self, s: &'b str) -> WIPOffset<&'fbb str> {
self.try_create_shared_string(s)
.expect("Flatbuffer allocation failure")
}
/// Fallible version of [`create_string`](Self::create_string).
#[inline]
pub fn try_create_string<'a: 'b, 'b>(
&'a mut self,
s: &'b str,
) -> Result<WIPOffset<&'fbb str>, A::Error> {
self.assert_not_nested(
"create_string can not be called when a table or vector is under construction",
);
Ok(WIPOffset::new(
self.try_create_byte_string(s.as_bytes())?.value(),
))
}
/// Create a utf8 string.
///
/// The wire format represents this as a zero-terminated byte vector.
#[inline]
pub fn create_string<'a: 'b, 'b>(&'a mut self, s: &'b str) -> WIPOffset<&'fbb str> {
self.try_create_string(s)
.expect("Flatbuffer allocation failure")
}
/// Fallible version of [`create_byte_string`](Self::create_byte_string).
#[inline]
pub fn try_create_byte_string(
&mut self,
data: &[u8],
) -> Result<WIPOffset<&'fbb [u8]>, A::Error> {
self.assert_not_nested(
"create_byte_string can not be called when a table or vector is under construction",
"create_string can not be called when a table or vector is under construction",
);
self.align(data.len() + 1, PushAlignment::new(SIZE_UOFFSET))?;
self.try_push(0u8)?;
self.push_bytes_unprefixed(data)?;
self.try_push(data.len() as UOffsetT)?;
Ok(WIPOffset::new(self.used_space() as UOffsetT))
WIPOffset::new(self.create_byte_string(s.as_bytes()).value())
}
/// Create a zero-terminated byte vector.
#[inline]
pub fn create_byte_string(&mut self, data: &[u8]) -> WIPOffset<&'fbb [u8]> {
self.try_create_byte_string(data)
.expect("Flatbuffer allocation failure")
self.assert_not_nested(
"create_byte_string can not be called when a table or vector is under construction",
);
self.align(data.len() + 1, PushAlignment::new(SIZE_UOFFSET));
self.push(0u8);
self.push_bytes_unprefixed(data);
self.push(data.len() as UOffsetT);
WIPOffset::new(self.used_space() as UOffsetT)
}
/// Fallible version of [`create_vector`](Self::create_vector).
/// Create a vector of Push-able objects.
///
/// Speed-sensitive users may wish to reduce memory usage by creating the
/// vector manually: use `start_vector`, `push`, and `end_vector`.
#[inline]
pub fn try_create_vector<'a: 'b, 'b, T: Push + 'b>(
pub fn create_vector<'a: 'b, 'b, T: Push + 'b>(
&'a mut self,
items: &'b [T],
) -> Result<WIPOffset<Vector<'fbb, T::Output>>, A::Error> {
) -> WIPOffset<Vector<'fbb, T::Output>> {
let elem_size = T::size();
let slice_size = items.len() * elem_size;
self.align(slice_size, T::alignment().max_of(SIZE_UOFFSET))?;
self.ensure_capacity(slice_size + UOffsetT::size())?;
self.align(slice_size, T::alignment().max_of(SIZE_UOFFSET));
self.ensure_capacity(slice_size + UOffsetT::size());
self.head -= slice_size;
let mut written_len = self.head.distance_to_end();
@@ -660,38 +430,7 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
unsafe { item.push(out, written_len) };
}
Ok(WIPOffset::new(
self.try_push::<UOffsetT>(items.len() as UOffsetT)?.value(),
))
}
/// Create a vector of Push-able objects.
///
/// Speed-sensitive users may wish to reduce memory usage by creating the
/// vector manually: use `start_vector`, `push`, and `end_vector`.
#[inline]
pub fn create_vector<'a: 'b, 'b, T: Push + 'b>(
&'a mut self,
items: &'b [T],
) -> WIPOffset<Vector<'fbb, T::Output>> {
self.try_create_vector(items)
.expect("Flatbuffer allocation failure")
}
/// Fallible version of [`create_vector_from_iter`](Self::create_vector_from_iter).
#[inline]
pub fn try_create_vector_from_iter<T: Push>(
&mut self,
items: impl ExactSizeIterator<Item = T> + DoubleEndedIterator,
) -> Result<WIPOffset<Vector<'fbb, T::Output>>, A::Error> {
let elem_size = T::size();
self.align(items.len() * elem_size, T::alignment().max_of(SIZE_UOFFSET))?;
let mut actual = 0;
for item in items.rev() {
self.try_push(item)?;
actual += 1;
}
Ok(WIPOffset::new(self.try_push::<UOffsetT>(actual)?.value()))
WIPOffset::new(self.push::<UOffsetT>(items.len() as UOffsetT).value())
}
/// Create a vector of Push-able objects.
@@ -703,8 +442,14 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
&mut self,
items: impl ExactSizeIterator<Item = T> + DoubleEndedIterator,
) -> WIPOffset<Vector<'fbb, T::Output>> {
self.try_create_vector_from_iter(items)
.expect("Flatbuffer allocation failure")
let elem_size = T::size();
self.align(items.len() * elem_size, T::alignment().max_of(SIZE_UOFFSET));
let mut actual = 0;
for item in items.rev() {
self.push(item);
actual += 1;
}
WIPOffset::new(self.push::<UOffsetT>(actual).value())
}
/// Set whether default values are stored.
@@ -767,34 +512,13 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
assert!(o != 0, "missing required field {}", assert_msg_name);
}
/// Fallible version of [`finish_size_prefixed`](Self::finish_size_prefixed).
#[inline]
pub fn try_finish_size_prefixed<T>(
&mut self,
root: WIPOffset<T>,
file_identifier: Option<&str>,
) -> Result<(), A::Error> {
self.finish_with_opts(root, file_identifier, true)
}
/// Finalize the FlatBuffer by: aligning it, pushing an optional file
/// identifier on to it, pushing a size prefix on to it, and marking the
/// internal state of the FlatBufferBuilder as `finished`. Afterwards,
/// users can call `finished_data` to get the resulting data.
#[inline]
pub fn finish_size_prefixed<T>(&mut self, root: WIPOffset<T>, file_identifier: Option<&str>) {
self.try_finish_size_prefixed(root, file_identifier)
.expect("Flatbuffer allocation failure")
}
/// Fallible version of [`finish`](Self::finish).
#[inline]
pub fn try_finish<T>(
&mut self,
root: WIPOffset<T>,
file_identifier: Option<&str>,
) -> Result<(), A::Error> {
self.finish_with_opts(root, file_identifier, false)
self.finish_with_opts(root, file_identifier, true);
}
/// Finalize the FlatBuffer by: aligning it, pushing an optional file
@@ -803,14 +527,7 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
/// `finished_data` to get the resulting data.
#[inline]
pub fn finish<T>(&mut self, root: WIPOffset<T>, file_identifier: Option<&str>) {
self.try_finish(root, file_identifier)
.expect("Flatbuffer allocation failure")
}
/// Fallible version of [`finish_minimal`](Self::finish_minimal).
#[inline]
pub fn try_finish_minimal<T>(&mut self, root: WIPOffset<T>) -> Result<(), A::Error> {
self.finish_with_opts(root, None, false)
self.finish_with_opts(root, file_identifier, false);
}
/// Finalize the FlatBuffer by: aligning it and marking the internal state
@@ -818,8 +535,7 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
/// `finished_data` to get the resulting data.
#[inline]
pub fn finish_minimal<T>(&mut self, root: WIPOffset<T>) {
self.try_finish_minimal(root)
.expect("Flatbuffer allocation failure")
self.finish_with_opts(root, None, false);
}
#[inline]
@@ -837,13 +553,13 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
fn write_vtable(
&mut self,
table_tail_revloc: WIPOffset<TableUnfinishedWIPOffset>,
) -> Result<WIPOffset<VTableWIPOffset>, A::Error> {
) -> WIPOffset<VTableWIPOffset> {
self.assert_nested("write_vtable");
// Write the vtable offset, which is the start of any Table.
// We fill its value later.
let object_revloc_to_vtable: WIPOffset<VTableWIPOffset> =
WIPOffset::new(self.try_push::<UOffsetT>(0xF0F0_F0F0)?.value());
WIPOffset::new(self.push::<UOffsetT>(0xF0F0_F0F0).value());
// Layout of the data this function will create when a new vtable is
// needed.
@@ -886,7 +602,7 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
// fill the WIP vtable with zeros:
let vtable_byte_len = get_vtable_byte_len(&self.field_locs);
self.make_space(vtable_byte_len)?;
self.make_space(vtable_byte_len);
// compute the length of the table (not vtable!) in bytes:
let table_object_size = object_revloc_to_vtable.value() - table_tail_revloc.value();
@@ -911,15 +627,13 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
}
}
let new_vt_bytes = &self.allocator[vt_start_pos.range_to(vt_end_pos)];
let found = self
.written_vtable_revpos
.binary_search_by(|old_vtable_revpos: &UOffsetT| {
let old_vtable_pos = self.allocator.len() - *old_vtable_revpos as usize;
// Safety:
// Already written vtables are valid by construction
let old_vtable = unsafe { VTable::init(&self.allocator, old_vtable_pos) };
new_vt_bytes.cmp(old_vtable.as_bytes())
});
let found = self.written_vtable_revpos.binary_search_by(|old_vtable_revpos: &UOffsetT| {
let old_vtable_pos = self.allocator.len() - *old_vtable_revpos as usize;
// Safety:
// Already written vtables are valid by construction
let old_vtable = unsafe { VTable::init(&self.allocator, old_vtable_pos) };
new_vt_bytes.cmp(old_vtable.as_bytes())
});
let final_vtable_revpos = match found {
Ok(i) => {
// The new vtable is a duplicate so clear it.
@@ -957,18 +671,17 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
self.field_locs.clear();
Ok(object_revloc_to_vtable)
object_revloc_to_vtable
}
// Only call this when you know it is safe to double the size of the buffer.
#[inline]
fn grow_allocator(&mut self) -> Result<(), A::Error> {
fn grow_allocator(&mut self) {
let starting_active_size = self.used_space();
self.allocator.grow_downwards()?;
self.allocator.grow_downwards().expect("Flatbuffer allocation failure");
let ending_active_size = self.used_space();
debug_assert_eq!(starting_active_size, ending_active_size);
Ok(())
}
// with or without a size prefix changes how we load the data, so finish*
@@ -978,7 +691,7 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
root: WIPOffset<T>,
file_identifier: Option<&str>,
size_prefixed: bool,
) -> Result<(), A::Error> {
) {
self.assert_not_finished("buffer cannot be finished when it is already finished");
self.assert_not_nested(
"buffer cannot be finished when a table or vector is under construction",
@@ -991,40 +704,34 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
// for the size prefix:
let b = if size_prefixed { SIZE_UOFFSET } else { 0 };
// for the file identifier (a string that is not zero-terminated):
let c = if file_identifier.is_some() {
FILE_IDENTIFIER_LENGTH
} else {
0
};
let c = if file_identifier.is_some() { FILE_IDENTIFIER_LENGTH } else { 0 };
a + b + c
};
{
let ma = PushAlignment::new(self.min_align);
self.align(to_align, ma)?;
self.align(to_align, ma);
}
if let Some(ident) = file_identifier {
debug_assert_eq!(ident.len(), FILE_IDENTIFIER_LENGTH);
self.push_bytes_unprefixed(ident.as_bytes())?;
self.push_bytes_unprefixed(ident.as_bytes());
}
self.try_push(root)?;
self.push(root);
if size_prefixed {
let sz = self.used_space() as UOffsetT;
self.try_push::<UOffsetT>(sz)?;
self.push::<UOffsetT>(sz);
}
self.finished = true;
Ok(())
}
#[inline]
fn align(&mut self, len: usize, alignment: PushAlignment) -> Result<(), A::Error> {
fn align(&mut self, len: usize, alignment: PushAlignment) {
self.track_min_align(alignment.value());
let s = self.used_space() as usize;
self.make_space(padding_bytes(s + len, alignment.value()))?;
Ok(())
self.make_space(padding_bytes(s + len, alignment.value()));
}
#[inline]
@@ -1033,34 +740,31 @@ impl<'fbb, A: Allocator> FlatBufferBuilder<'fbb, A> {
}
#[inline]
fn push_bytes_unprefixed(&mut self, x: &[u8]) -> Result<UOffsetT, A::Error> {
let n = self.make_space(x.len())?;
fn push_bytes_unprefixed(&mut self, x: &[u8]) -> UOffsetT {
let n = self.make_space(x.len());
self.allocator[n.range_to(n + x.len())].copy_from_slice(x);
Ok(n.to_forward_index(&self.allocator) as UOffsetT)
n.to_forward_index(&self.allocator) as UOffsetT
}
#[inline]
fn make_space(&mut self, want: usize) -> Result<ReverseIndex, A::Error> {
self.ensure_capacity(want)?;
fn make_space(&mut self, want: usize) -> ReverseIndex {
self.ensure_capacity(want);
self.head -= want;
Ok(self.head)
self.head
}
#[inline]
fn ensure_capacity(&mut self, want: usize) -> Result<usize, A::Error> {
fn ensure_capacity(&mut self, want: usize) -> usize {
if self.unused_ready_space() >= want {
return Ok(want);
return want;
}
assert!(
want <= FLATBUFFERS_MAX_BUFFER_SIZE,
"cannot grow buffer beyond 2 gigabytes"
);
assert!(want <= FLATBUFFERS_MAX_BUFFER_SIZE, "cannot grow buffer beyond 2 gigabytes");
while self.unused_ready_space() < want {
self.grow_allocator()?;
self.grow_allocator();
}
Ok(want)
want
}
#[inline]
fn unused_ready_space(&self) -> usize {
@@ -1227,33 +931,6 @@ impl<T> IndexMut<ReverseIndexRange> for [T] {
#[cfg(test)]
mod tests {
use super::*;
use core::sync::atomic::{AtomicUsize, Ordering};
use std::alloc::{GlobalAlloc, Layout, System};
static ALLOC_COUNT: AtomicUsize = AtomicUsize::new(0);
struct CountingAllocator;
unsafe impl GlobalAlloc for CountingAllocator {
unsafe fn alloc(&self, layout: Layout) -> *mut u8 {
ALLOC_COUNT.fetch_add(1, Ordering::Relaxed);
unsafe { System.alloc(layout) }
}
unsafe fn dealloc(&self, ptr: *mut u8, layout: Layout) {
unsafe { System.dealloc(ptr, layout) }
}
}
#[global_allocator]
static GLOBAL: CountingAllocator = CountingAllocator;
fn reset_alloc_count() {
ALLOC_COUNT.store(0, Ordering::Relaxed);
}
fn alloc_count() -> usize {
ALLOC_COUNT.load(Ordering::Relaxed)
}
#[test]
fn reverse_index_test() {
@@ -1263,150 +940,4 @@ mod tests {
assert_eq!(&buf[idx.range_to(idx + 1)], &[4]);
assert_eq!(idx.to_forward_index(&buf), 4);
}
#[test]
fn with_internal_capacity_preallocates_vecs() {
let mut builder = FlatBufferBuilder::with_internal_capacity(64, 8, 16, 32);
assert!(builder.allocator.len() >= 64);
assert!(builder.field_locs.capacity() >= 8);
assert!(builder.written_vtable_revpos.capacity() >= 16);
assert!(builder.strings_pool.capacity() >= 32);
assert!(builder.field_locs.is_empty());
assert!(builder.written_vtable_revpos.is_empty());
assert!(builder.strings_pool.is_empty());
// Reset the allocation counter after builder construction
reset_alloc_count();
// Add a shared string and verify it lands in the pool
let s1 = builder.create_shared_string("hello");
assert_eq!(builder.strings_pool.len(), 1);
// Adding the same string again should reuse the pooled entry
let s2 = builder.create_shared_string("hello");
assert_eq!(builder.strings_pool.len(), 1);
assert_eq!(s1.value(), s2.value());
// A different string should add a new entry
let _s3 = builder.create_shared_string("world");
assert_eq!(builder.strings_pool.len(), 2);
// With sufficient preallocated capacity, no additional allocations
// should have occurred for the internal vecs during the operations above
let allocs = alloc_count();
assert_eq!(
allocs, 0,
"expected 0 allocations after builder construction, got {}",
allocs
);
}
/// A test allocator that fails after a specified number of grow operations.
struct FailingAllocator {
inner: DefaultAllocator,
grows_remaining: usize,
}
#[derive(Debug, Clone, PartialEq, Eq)]
struct AllocationError;
impl core::fmt::Display for AllocationError {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
write!(f, "allocation failed")
}
}
impl FailingAllocator {
fn new(initial_size: usize, max_grows: usize) -> Self {
Self {
inner: DefaultAllocator::from_vec(vec![0u8; initial_size]),
grows_remaining: max_grows,
}
}
}
impl Deref for FailingAllocator {
type Target = [u8];
fn deref(&self) -> &Self::Target {
&self.inner
}
}
impl DerefMut for FailingAllocator {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.inner
}
}
unsafe impl Allocator for FailingAllocator {
type Error = AllocationError;
fn grow_downwards(&mut self) -> Result<(), Self::Error> {
if self.grows_remaining == 0 {
return Err(AllocationError);
}
self.grows_remaining -= 1;
// DefaultAllocator returns Infallible, so unwrap is safe
self.inner.grow_downwards().unwrap();
Ok(())
}
fn len(&self) -> usize {
self.inner.len()
}
}
#[test]
fn try_push_propagates_allocation_error() {
let allocator = FailingAllocator::new(1, 0);
let mut builder = FlatBufferBuilder::new_in(allocator);
let result = builder.try_push::<u64>(0x1234567890ABCDEF);
assert!(result.is_err());
}
#[test]
fn try_create_string_propagates_allocation_error() {
let allocator = FailingAllocator::new(1, 0);
let mut builder = FlatBufferBuilder::new_in(allocator);
let result = builder.try_create_string("hello world");
assert!(result.is_err());
}
#[test]
fn try_create_vector_propagates_allocation_error() {
let allocator = FailingAllocator::new(1, 0);
let mut builder = FlatBufferBuilder::new_in(allocator);
let result = builder.try_create_vector(&[1u32, 2, 3, 4, 5]);
assert!(result.is_err());
}
#[test]
fn try_methods_succeed_with_sufficient_capacity() {
let allocator = FailingAllocator::new(1, 10);
let mut builder = FlatBufferBuilder::new_in(allocator);
let result = builder.try_create_string("hello");
assert!(result.is_ok());
let result = builder.try_create_vector(&[1u32, 2, 3]);
assert!(result.is_ok());
}
#[test]
fn try_finish_propagates_allocation_error() {
let allocator = FailingAllocator::new(1, 3);
let mut builder = FlatBufferBuilder::new_in(allocator);
let start = builder.start_table();
let table = builder
.try_end_table(start)
.expect("end_table should succeed with 3 grows");
let result = builder.try_finish_minimal(table);
assert!(result.is_err(), "finish should fail after grows exhausted");
}
}

View File

@@ -107,20 +107,6 @@ impl<'a, T: Follow<'a> + 'a> Vector<'a, T> {
key: K,
f: fn(&<T as Follow<'a>>::Inner, &K) -> Ordering,
) -> Option<T::Inner> {
self.lookup_index_by_key(key, f).map(|idx| self.get(idx))
}
/// Binary search by key, returning the index of the matching element.
///
/// This is similar to `lookup_by_key`, but returns the index of the found
/// element rather than the element itself. This is useful when you need
/// to reference elements by their position in the vector.
#[inline(always)]
pub fn lookup_index_by_key<K: Ord>(
&self,
key: K,
f: fn(&<T as Follow<'a>>::Inner, &K) -> Ordering,
) -> Option<usize> {
if self.is_empty() {
return None;
}
@@ -132,7 +118,7 @@ impl<'a, T: Follow<'a> + 'a> Vector<'a, T> {
let mid = (left + right) / 2;
let value = self.get(mid);
match f(&value, &key) {
Ordering::Equal => return Some(mid),
Ordering::Equal => return Some(value),
Ordering::Less => left = mid + 1,
Ordering::Greater => {
if mid == 0 {

View File

@@ -492,8 +492,8 @@ impl<'ver, 'opts, 'buf> TableVerifier<'ver, 'opts, 'buf> {
Ok(self)
}
_ => InvalidFlatbuffer::new_inconsistent_union(
val_field_name.into(),
key_field_name.into(),
val_field_name.into(),
),
}
}

View File

@@ -397,8 +397,8 @@ fn verify_union<'a, 'b, 'c>(
}
} else {
return InvalidFlatbuffer::new_inconsistent_union(
field.name().to_string(),
format!("{}_type", field.name()),
field.name().to_string(),
)?;
}

View File

@@ -643,7 +643,7 @@ inline ::flatbuffers::Offset<Monster> Monster::Pack(::flatbuffers::FlatBufferBui
auto _name = _o->name.empty() ? 0 : _fbb.CreateString(_o->name);
auto _inventory = _o->inventory.size() ? _fbb.CreateVector(_o->inventory) : 0;
auto _color = _o->color;
auto _weapons = _o->weapons.size() ? _fbb.CreateVector<::flatbuffers::Offset<MyGame::Sample::Weapon>> (_o->weapons.size(), [](size_t i, _VectorArgs *__va) { return MyGame::Sample::CreateWeapon(*__va->__fbb, __va->__o->weapons[i].get(), __va->__rehasher); }, &_va ) : 0;
auto _weapons = _o->weapons.size() ? _fbb.CreateVector<::flatbuffers::Offset<MyGame::Sample::Weapon>> (_o->weapons.size(), [](size_t i, _VectorArgs *__va) { return CreateWeapon(*__va->__fbb, __va->__o->weapons[i].get(), __va->__rehasher); }, &_va ) : 0;
auto _equipped_type = _o->equipped.type;
auto _equipped = _o->equipped.Pack(_fbb);
auto _path = _o->path.size() ? _fbb.CreateVectorOfStructs(_o->path) : 0;

View File

@@ -113,12 +113,12 @@ public struct MyGame_Sample_Vec3: NativeStruct, FlatbuffersVectorInitializable,
}
extension MyGame_Sample_Vec3: Encodable {
enum CodingKeys: String, CodingKey {
case x = "x"
case y = "y"
case z = "z"
}
public func encode(to encoder: Encoder) throws {
var container = encoder.container(keyedBy: CodingKeys.self)
if x != 0.0 {
@@ -161,7 +161,7 @@ public struct MyGame_Sample_Vec3_Mutable: FlatBufferStruct, FlatbuffersVectorIni
}
}
public struct MyGame_Sample_Monster: FlatBufferVerifiableTable, FlatbuffersVectorInitializable, ObjectAPIPacker {
public struct MyGame_Sample_Monster: FlatBufferTable, FlatbuffersVectorInitializable, Verifiable, ObjectAPIPacker {
static func validateVersion() { FlatBuffersVersion_25_12_19() }
public var __buffer: ByteBuffer! { return _accessor.bb }
@@ -170,49 +170,51 @@ public struct MyGame_Sample_Monster: FlatBufferVerifiableTable, FlatbuffersVecto
private init(_ t: Table) { _accessor = t }
public init(_ bb: ByteBuffer, o: Int32) { _accessor = Table(bb: bb, position: o) }
private struct VT {
static let pos: VOffset = 4
static let mana: VOffset = 6
static let hp: VOffset = 8
static let name: VOffset = 10
static let inventory: VOffset = 14
static let color: VOffset = 16
static let weapons: VOffset = 18
static let equippedType: VOffset = 20
static let equipped: VOffset = 22
static let path: VOffset = 24
private enum VTOFFSET: VOffset {
case pos = 4
case mana = 6
case hp = 8
case name = 10
case inventory = 14
case color = 16
case weapons = 18
case equippedType = 20
case equipped = 22
case path = 24
var v: Int32 { Int32(self.rawValue) }
var p: VOffset { self.rawValue }
}
public var pos: MyGame_Sample_Vec3? { let o = _accessor.offset(VT.pos); return o == 0 ? nil : _accessor.readBuffer(of: MyGame_Sample_Vec3.self, at: o) }
public var mutablePos: MyGame_Sample_Vec3_Mutable? { let o = _accessor.offset(VT.pos); return o == 0 ? nil : MyGame_Sample_Vec3_Mutable(_accessor.bb, o: o + _accessor.position) }
public var mana: Int16 { let o = _accessor.offset(VT.mana); return o == 0 ? 150 : _accessor.readBuffer(of: Int16.self, at: o) }
@discardableResult public func mutate(mana: Int16) -> Bool {let o = _accessor.offset(VT.mana); return _accessor.mutate(mana, index: o) }
public var hp: Int16 { let o = _accessor.offset(VT.hp); return o == 0 ? 100 : _accessor.readBuffer(of: Int16.self, at: o) }
@discardableResult public func mutate(hp: Int16) -> Bool {let o = _accessor.offset(VT.hp); return _accessor.mutate(hp, index: o) }
public var name: String? { let o = _accessor.offset(VT.name); return o == 0 ? nil : _accessor.string(at: o) }
public var nameSegmentArray: [UInt8]? { return _accessor.getVector(at: VT.name) }
public var inventory: FlatbufferVector<UInt8> { return _accessor.vector(at: VT.inventory, byteSize: 1) }
public func mutate(inventory: UInt8, at index: Int32) -> Bool { let o = _accessor.offset(VT.inventory); return _accessor.directMutate(inventory, index: _accessor.vector(at: o) + index * 1) }
public func withUnsafePointerToInventory<T>(_ body: (UnsafeRawBufferPointer, Int) throws -> T) rethrows -> T? { return try _accessor.withUnsafePointerToSlice(at: VT.inventory, body: body) }
public var color: MyGame_Sample_Color { let o = _accessor.offset(VT.color); return o == 0 ? .blue : MyGame_Sample_Color(rawValue: _accessor.readBuffer(of: Int8.self, at: o)) ?? .blue }
@discardableResult public func mutate(color: MyGame_Sample_Color) -> Bool {let o = _accessor.offset(VT.color); return _accessor.mutate(color.rawValue, index: o) }
public var weapons: FlatbufferVector<MyGame_Sample_Weapon> { return _accessor.vector(at: VT.weapons, byteSize: 4) }
public var equippedType: MyGame_Sample_Equipment { let o = _accessor.offset(VT.equippedType); return o == 0 ? .none_ : MyGame_Sample_Equipment(rawValue: _accessor.readBuffer(of: UInt8.self, at: o)) ?? .none_ }
public func equipped<T: FlatbuffersInitializable>(type: T.Type) -> T? { let o = _accessor.offset(VT.equipped); return o == 0 ? nil : _accessor.union(o) }
public var path: FlatbufferVector<MyGame_Sample_Vec3> { return _accessor.vector(at: VT.path, byteSize: 12) }
public var mutablePath: FlatbufferVector<MyGame_Sample_Vec3_Mutable> { return _accessor.vector(at: VT.path, byteSize: 12) }
public func withUnsafePointerToPath<T>(_ body: (UnsafeRawBufferPointer, Int) throws -> T) rethrows -> T? { return try _accessor.withUnsafePointerToSlice(at: VT.path, body: body) }
public var pos: MyGame_Sample_Vec3? { let o = _accessor.offset(VTOFFSET.pos.v); return o == 0 ? nil : _accessor.readBuffer(of: MyGame_Sample_Vec3.self, at: o) }
public var mutablePos: MyGame_Sample_Vec3_Mutable? { let o = _accessor.offset(VTOFFSET.pos.v); return o == 0 ? nil : MyGame_Sample_Vec3_Mutable(_accessor.bb, o: o + _accessor.position) }
public var mana: Int16 { let o = _accessor.offset(VTOFFSET.mana.v); return o == 0 ? 150 : _accessor.readBuffer(of: Int16.self, at: o) }
@discardableResult public func mutate(mana: Int16) -> Bool {let o = _accessor.offset(VTOFFSET.mana.v); return _accessor.mutate(mana, index: o) }
public var hp: Int16 { let o = _accessor.offset(VTOFFSET.hp.v); return o == 0 ? 100 : _accessor.readBuffer(of: Int16.self, at: o) }
@discardableResult public func mutate(hp: Int16) -> Bool {let o = _accessor.offset(VTOFFSET.hp.v); return _accessor.mutate(hp, index: o) }
public var name: String? { let o = _accessor.offset(VTOFFSET.name.v); return o == 0 ? nil : _accessor.string(at: o) }
public var nameSegmentArray: [UInt8]? { return _accessor.getVector(at: VTOFFSET.name.v) }
public var inventory: FlatbufferVector<UInt8> { return _accessor.vector(at: VTOFFSET.inventory.v, byteSize: 1) }
public func mutate(inventory: UInt8, at index: Int32) -> Bool { let o = _accessor.offset(VTOFFSET.inventory.v); return _accessor.directMutate(inventory, index: _accessor.vector(at: o) + index * 1) }
public func withUnsafePointerToInventory<T>(_ body: (UnsafeRawBufferPointer, Int) throws -> T) rethrows -> T? { return try _accessor.withUnsafePointerToSlice(at: VTOFFSET.inventory.v, body: body) }
public var color: MyGame_Sample_Color { let o = _accessor.offset(VTOFFSET.color.v); return o == 0 ? .blue : MyGame_Sample_Color(rawValue: _accessor.readBuffer(of: Int8.self, at: o)) ?? .blue }
@discardableResult public func mutate(color: MyGame_Sample_Color) -> Bool {let o = _accessor.offset(VTOFFSET.color.v); return _accessor.mutate(color.rawValue, index: o) }
public var weapons: FlatbufferVector<MyGame_Sample_Weapon> { return _accessor.vector(at: VTOFFSET.weapons.v, byteSize: 4) }
public var equippedType: MyGame_Sample_Equipment { let o = _accessor.offset(VTOFFSET.equippedType.v); return o == 0 ? .none_ : MyGame_Sample_Equipment(rawValue: _accessor.readBuffer(of: UInt8.self, at: o)) ?? .none_ }
public func equipped<T: FlatbuffersInitializable>(type: T.Type) -> T? { let o = _accessor.offset(VTOFFSET.equipped.v); return o == 0 ? nil : _accessor.union(o) }
public var path: FlatbufferVector<MyGame_Sample_Vec3> { return _accessor.vector(at: VTOFFSET.path.v, byteSize: 12) }
public var mutablePath: FlatbufferVector<MyGame_Sample_Vec3_Mutable> { return _accessor.vector(at: VTOFFSET.path.v, byteSize: 12) }
public func withUnsafePointerToPath<T>(_ body: (UnsafeRawBufferPointer, Int) throws -> T) rethrows -> T? { return try _accessor.withUnsafePointerToSlice(at: VTOFFSET.path.v, body: body) }
public static func startMonster(_ fbb: inout FlatBufferBuilder) -> UOffset { fbb.startTable(with: 11) }
public static func add(pos: MyGame_Sample_Vec3?, _ fbb: inout FlatBufferBuilder) { guard let pos = pos else { return }; fbb.create(struct: pos, position: VT.pos) }
public static func add(mana: Int16, _ fbb: inout FlatBufferBuilder) { fbb.add(element: mana, def: 150, at: VT.mana) }
public static func add(hp: Int16, _ fbb: inout FlatBufferBuilder) { fbb.add(element: hp, def: 100, at: VT.hp) }
public static func add(name: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: name, at: VT.name) }
public static func addVectorOf(inventory: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: inventory, at: VT.inventory) }
public static func add(color: MyGame_Sample_Color, _ fbb: inout FlatBufferBuilder) { fbb.add(element: color.rawValue, def: 2, at: VT.color) }
public static func addVectorOf(weapons: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: weapons, at: VT.weapons) }
public static func add(equippedType: MyGame_Sample_Equipment, _ fbb: inout FlatBufferBuilder) { fbb.add(element: equippedType.rawValue, def: 0, at: VT.equippedType) }
public static func add(equipped: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: equipped, at: VT.equipped) }
public static func addVectorOf(path: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: path, at: VT.path) }
public static func add(pos: MyGame_Sample_Vec3?, _ fbb: inout FlatBufferBuilder) { guard let pos = pos else { return }; fbb.create(struct: pos, position: VTOFFSET.pos.p) }
public static func add(mana: Int16, _ fbb: inout FlatBufferBuilder) { fbb.add(element: mana, def: 150, at: VTOFFSET.mana.p) }
public static func add(hp: Int16, _ fbb: inout FlatBufferBuilder) { fbb.add(element: hp, def: 100, at: VTOFFSET.hp.p) }
public static func add(name: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: name, at: VTOFFSET.name.p) }
public static func addVectorOf(inventory: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: inventory, at: VTOFFSET.inventory.p) }
public static func add(color: MyGame_Sample_Color, _ fbb: inout FlatBufferBuilder) { fbb.add(element: color.rawValue, def: 2, at: VTOFFSET.color.p) }
public static func addVectorOf(weapons: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: weapons, at: VTOFFSET.weapons.p) }
public static func add(equippedType: MyGame_Sample_Equipment, _ fbb: inout FlatBufferBuilder) { fbb.add(element: equippedType.rawValue, def: 0, at: VTOFFSET.equippedType.p) }
public static func add(equipped: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: equipped, at: VTOFFSET.equipped.p) }
public static func addVectorOf(path: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: path, at: VTOFFSET.path.p) }
public static func startVectorOfPath(_ size: Int, in builder: inout FlatBufferBuilder) {
builder.startVector(size * MemoryLayout<MyGame_Sample_Vec3>.size, elementSize: MemoryLayout<MyGame_Sample_Vec3>.alignment)
}
@@ -291,14 +293,14 @@ public struct MyGame_Sample_Monster: FlatBufferVerifiableTable, FlatbuffersVecto
public static func verify<T>(_ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable {
var _v = try verifier.visitTable(at: position)
try _v.visit(field: VT.pos, fieldName: "pos", required: false, type: MyGame_Sample_Vec3.self)
try _v.visit(field: VT.mana, fieldName: "mana", required: false, type: Int16.self)
try _v.visit(field: VT.hp, fieldName: "hp", required: false, type: Int16.self)
try _v.visit(field: VT.name, fieldName: "name", required: false, type: ForwardOffset<String>.self)
try _v.visit(field: VT.inventory, fieldName: "inventory", required: false, type: ForwardOffset<Vector<UInt8, UInt8>>.self)
try _v.visit(field: VT.color, fieldName: "color", required: false, type: MyGame_Sample_Color.self)
try _v.visit(field: VT.weapons, fieldName: "weapons", required: false, type: ForwardOffset<Vector<ForwardOffset<MyGame_Sample_Weapon>, MyGame_Sample_Weapon>>.self)
try _v.visit(unionKey: VT.equippedType, unionField: VT.equipped, unionKeyName: "equippedType", fieldName: "equipped", required: false, completion: { (verifier, key: MyGame_Sample_Equipment, pos) in
try _v.visit(field: VTOFFSET.pos.p, fieldName: "pos", required: false, type: MyGame_Sample_Vec3.self)
try _v.visit(field: VTOFFSET.mana.p, fieldName: "mana", required: false, type: Int16.self)
try _v.visit(field: VTOFFSET.hp.p, fieldName: "hp", required: false, type: Int16.self)
try _v.visit(field: VTOFFSET.name.p, fieldName: "name", required: false, type: ForwardOffset<String>.self)
try _v.visit(field: VTOFFSET.inventory.p, fieldName: "inventory", required: false, type: ForwardOffset<Vector<UInt8, UInt8>>.self)
try _v.visit(field: VTOFFSET.color.p, fieldName: "color", required: false, type: MyGame_Sample_Color.self)
try _v.visit(field: VTOFFSET.weapons.p, fieldName: "weapons", required: false, type: ForwardOffset<Vector<ForwardOffset<MyGame_Sample_Weapon>, MyGame_Sample_Weapon>>.self)
try _v.visit(unionKey: VTOFFSET.equippedType.p, unionField: VTOFFSET.equipped.p, unionKeyName: "equippedType", fieldName: "equipped", required: false, completion: { (verifier, key: MyGame_Sample_Equipment, pos) in
switch key {
case .none_:
break // NOTE - SWIFT doesnt support none
@@ -306,12 +308,13 @@ public struct MyGame_Sample_Monster: FlatBufferVerifiableTable, FlatbuffersVecto
try ForwardOffset<MyGame_Sample_Weapon>.verify(&verifier, at: pos, of: MyGame_Sample_Weapon.self)
}
})
try _v.visit(field: VT.path, fieldName: "path", required: false, type: ForwardOffset<Vector<MyGame_Sample_Vec3, MyGame_Sample_Vec3>>.self)
try _v.visit(field: VTOFFSET.path.p, fieldName: "path", required: false, type: ForwardOffset<Vector<MyGame_Sample_Vec3, MyGame_Sample_Vec3>>.self)
_v.finish()
}
}
extension MyGame_Sample_Monster: Encodable {
enum CodingKeys: String, CodingKey {
case pos = "pos"
case mana = "mana"
@@ -324,7 +327,6 @@ extension MyGame_Sample_Monster: Encodable {
case equipped = "equipped"
case path = "path"
}
public func encode(to encoder: Encoder) throws {
var container = encoder.container(keyedBy: CodingKeys.self)
try container.encodeIfPresent(pos, forKey: .pos)
@@ -400,7 +402,7 @@ public class MyGame_Sample_MonsterT: NativeObject {
public func serialize() -> ByteBuffer { return serialize(type: MyGame_Sample_Monster.self) }
}
public struct MyGame_Sample_Weapon: FlatBufferVerifiableTable, FlatbuffersVectorInitializable, ObjectAPIPacker {
public struct MyGame_Sample_Weapon: FlatBufferTable, FlatbuffersVectorInitializable, Verifiable, ObjectAPIPacker {
static func validateVersion() { FlatBuffersVersion_25_12_19() }
public var __buffer: ByteBuffer! { return _accessor.bb }
@@ -409,18 +411,20 @@ public struct MyGame_Sample_Weapon: FlatBufferVerifiableTable, FlatbuffersVector
private init(_ t: Table) { _accessor = t }
public init(_ bb: ByteBuffer, o: Int32) { _accessor = Table(bb: bb, position: o) }
private struct VT {
static let name: VOffset = 4
static let damage: VOffset = 6
private enum VTOFFSET: VOffset {
case name = 4
case damage = 6
var v: Int32 { Int32(self.rawValue) }
var p: VOffset { self.rawValue }
}
public var name: String? { let o = _accessor.offset(VT.name); return o == 0 ? nil : _accessor.string(at: o) }
public var nameSegmentArray: [UInt8]? { return _accessor.getVector(at: VT.name) }
public var damage: Int16 { let o = _accessor.offset(VT.damage); return o == 0 ? 0 : _accessor.readBuffer(of: Int16.self, at: o) }
@discardableResult public func mutate(damage: Int16) -> Bool {let o = _accessor.offset(VT.damage); return _accessor.mutate(damage, index: o) }
public var name: String? { let o = _accessor.offset(VTOFFSET.name.v); return o == 0 ? nil : _accessor.string(at: o) }
public var nameSegmentArray: [UInt8]? { return _accessor.getVector(at: VTOFFSET.name.v) }
public var damage: Int16 { let o = _accessor.offset(VTOFFSET.damage.v); return o == 0 ? 0 : _accessor.readBuffer(of: Int16.self, at: o) }
@discardableResult public func mutate(damage: Int16) -> Bool {let o = _accessor.offset(VTOFFSET.damage.v); return _accessor.mutate(damage, index: o) }
public static func startWeapon(_ fbb: inout FlatBufferBuilder) -> UOffset { fbb.startTable(with: 2) }
public static func add(name: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: name, at: VT.name) }
public static func add(damage: Int16, _ fbb: inout FlatBufferBuilder) { fbb.add(element: damage, def: 0, at: VT.damage) }
public static func add(name: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: name, at: VTOFFSET.name.p) }
public static func add(damage: Int16, _ fbb: inout FlatBufferBuilder) { fbb.add(element: damage, def: 0, at: VTOFFSET.damage.p) }
public static func endWeapon(_ fbb: inout FlatBufferBuilder, start: UOffset) -> Offset { let end = Offset(offset: fbb.endTable(at: start)); return end }
public static func createWeapon(
_ fbb: inout FlatBufferBuilder,
@@ -457,18 +461,18 @@ public struct MyGame_Sample_Weapon: FlatBufferVerifiableTable, FlatbuffersVector
public static func verify<T>(_ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable {
var _v = try verifier.visitTable(at: position)
try _v.visit(field: VT.name, fieldName: "name", required: false, type: ForwardOffset<String>.self)
try _v.visit(field: VT.damage, fieldName: "damage", required: false, type: Int16.self)
try _v.visit(field: VTOFFSET.name.p, fieldName: "name", required: false, type: ForwardOffset<String>.self)
try _v.visit(field: VTOFFSET.damage.p, fieldName: "damage", required: false, type: Int16.self)
_v.finish()
}
}
extension MyGame_Sample_Weapon: Encodable {
enum CodingKeys: String, CodingKey {
case name = "name"
case damage = "damage"
}
public func encode(to encoder: Encoder) throws {
var container = encoder.container(keyedBy: CodingKeys.self)
try container.encodeIfPresent(name, forKey: .name)

View File

@@ -1,18 +1,18 @@
// Automatically generated by the Flatbuffers compiler. Do not modify.
// @generated
pub mod my_game {
use super::*;
pub mod sample {
use super::*;
pub mod sample {
use super::*;
mod color_generated;
pub use self::color_generated::*;
mod equipment_generated;
pub use self::equipment_generated::*;
mod vec_3_generated;
pub use self::vec_3_generated::*;
mod monster_generated;
pub use self::monster_generated::*;
mod weapon_generated;
pub use self::weapon_generated::*;
} // sample
mod color_generated;
pub use self::color_generated::*;
mod equipment_generated;
pub use self::equipment_generated::*;
mod vec_3_generated;
pub use self::vec_3_generated::*;
mod monster_generated;
pub use self::monster_generated::*;
mod weapon_generated;
pub use self::weapon_generated::*;
} // sample
} // my_game

View File

@@ -2,73 +2,64 @@
// @generated
extern crate alloc;
use super::*;
#[deprecated(since = "2.0.0", note = "Use associated constants instead. This will no longer be generated in 2021.")]
pub const ENUM_MIN_COLOR: i8 = 0;
#[deprecated(since = "2.0.0", note = "Use associated constants instead. This will no longer be generated in 2021.")]
pub const ENUM_MAX_COLOR: i8 = 2;
#[deprecated(since = "2.0.0", note = "Use associated constants instead. This will no longer be generated in 2021.")]
#[allow(non_camel_case_types)]
pub const ENUM_VALUES_COLOR: [Color; 3] = [
Color::Red,
Color::Green,
Color::Blue,
Color::Red,
Color::Green,
Color::Blue,
];
#[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Default)]
#[repr(transparent)]
pub struct Color(pub i8);
#[allow(non_upper_case_globals)]
impl Color {
pub const Red: Self = Self(0);
pub const Green: Self = Self(1);
pub const Blue: Self = Self(2);
pub const Red: Self = Self(0);
pub const Green: Self = Self(1);
pub const Blue: Self = Self(2);
pub const ENUM_MIN: i8 = 0;
pub const ENUM_MAX: i8 = 2;
pub const ENUM_VALUES: &'static [Self] = &[
Self::Red,
Self::Green,
Self::Blue,
];
/// Returns the variant's name or "" if unknown.
pub fn variant_name(self) -> Option<&'static str> {
match self {
Self::Red => Some("Red"),
Self::Green => Some("Green"),
Self::Blue => Some("Blue"),
_ => None,
}
pub const ENUM_MIN: i8 = 0;
pub const ENUM_MAX: i8 = 2;
pub const ENUM_VALUES: &'static [Self] = &[
Self::Red,
Self::Green,
Self::Blue,
];
/// Returns the variant's name or "" if unknown.
pub fn variant_name(self) -> Option<&'static str> {
match self {
Self::Red => Some("Red"),
Self::Green => Some("Green"),
Self::Blue => Some("Blue"),
_ => None,
}
}
}
impl ::core::fmt::Debug for Color {
fn fmt(&self, f: &mut ::core::fmt::Formatter) -> ::core::fmt::Result {
if let Some(name) = self.variant_name() {
f.write_str(name)
} else {
f.write_fmt(format_args!("<UNKNOWN {:?}>", self.0))
}
fn fmt(&self, f: &mut ::core::fmt::Formatter) -> ::core::fmt::Result {
if let Some(name) = self.variant_name() {
f.write_str(name)
} else {
f.write_fmt(format_args!("<UNKNOWN {:?}>", self.0))
}
}
}
impl<'a> ::flatbuffers::Follow<'a> for Color {
type Inner = Self;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
let b = unsafe { ::flatbuffers::read_scalar_at::<i8>(buf, loc) };
Self(b)
}
type Inner = Self;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
let b = unsafe { ::flatbuffers::read_scalar_at::<i8>(buf, loc) };
Self(b)
}
}
impl ::flatbuffers::Push for Color {
type Output = Color;
#[inline]
unsafe fn push(&self, dst: &mut [u8], _written_len: usize) {
unsafe { ::flatbuffers::emplace_scalar::<i8>(dst, self.0) };
@@ -76,28 +67,26 @@ impl ::flatbuffers::Push for Color {
}
impl ::flatbuffers::EndianScalar for Color {
type Scalar = i8;
#[inline]
fn to_little_endian(self) -> i8 {
self.0.to_le()
}
#[inline]
#[allow(clippy::wrong_self_convention)]
fn from_little_endian(v: i8) -> Self {
let b = i8::from_le(v);
Self(b)
}
type Scalar = i8;
#[inline]
fn to_little_endian(self) -> i8 {
self.0.to_le()
}
#[inline]
#[allow(clippy::wrong_self_convention)]
fn from_little_endian(v: i8) -> Self {
let b = i8::from_le(v);
Self(b)
}
}
impl<'a> ::flatbuffers::Verifiable for Color {
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
i8::run_verifier(v, pos)
}
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
i8::run_verifier(v, pos)
}
}
impl ::flatbuffers::SimpleToVerifyInSlice for Color {}

View File

@@ -2,69 +2,60 @@
// @generated
extern crate alloc;
use super::*;
#[deprecated(since = "2.0.0", note = "Use associated constants instead. This will no longer be generated in 2021.")]
pub const ENUM_MIN_EQUIPMENT: u8 = 0;
#[deprecated(since = "2.0.0", note = "Use associated constants instead. This will no longer be generated in 2021.")]
pub const ENUM_MAX_EQUIPMENT: u8 = 1;
#[deprecated(since = "2.0.0", note = "Use associated constants instead. This will no longer be generated in 2021.")]
#[allow(non_camel_case_types)]
pub const ENUM_VALUES_EQUIPMENT: [Equipment; 2] = [
Equipment::NONE,
Equipment::Weapon,
Equipment::NONE,
Equipment::Weapon,
];
#[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Default)]
#[repr(transparent)]
pub struct Equipment(pub u8);
#[allow(non_upper_case_globals)]
impl Equipment {
pub const NONE: Self = Self(0);
pub const Weapon: Self = Self(1);
pub const NONE: Self = Self(0);
pub const Weapon: Self = Self(1);
pub const ENUM_MIN: u8 = 0;
pub const ENUM_MAX: u8 = 1;
pub const ENUM_VALUES: &'static [Self] = &[
Self::NONE,
Self::Weapon,
];
/// Returns the variant's name or "" if unknown.
pub fn variant_name(self) -> Option<&'static str> {
match self {
Self::NONE => Some("NONE"),
Self::Weapon => Some("Weapon"),
_ => None,
}
pub const ENUM_MIN: u8 = 0;
pub const ENUM_MAX: u8 = 1;
pub const ENUM_VALUES: &'static [Self] = &[
Self::NONE,
Self::Weapon,
];
/// Returns the variant's name or "" if unknown.
pub fn variant_name(self) -> Option<&'static str> {
match self {
Self::NONE => Some("NONE"),
Self::Weapon => Some("Weapon"),
_ => None,
}
}
}
impl ::core::fmt::Debug for Equipment {
fn fmt(&self, f: &mut ::core::fmt::Formatter) -> ::core::fmt::Result {
if let Some(name) = self.variant_name() {
f.write_str(name)
} else {
f.write_fmt(format_args!("<UNKNOWN {:?}>", self.0))
}
fn fmt(&self, f: &mut ::core::fmt::Formatter) -> ::core::fmt::Result {
if let Some(name) = self.variant_name() {
f.write_str(name)
} else {
f.write_fmt(format_args!("<UNKNOWN {:?}>", self.0))
}
}
}
impl<'a> ::flatbuffers::Follow<'a> for Equipment {
type Inner = Self;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
let b = unsafe { ::flatbuffers::read_scalar_at::<u8>(buf, loc) };
Self(b)
}
type Inner = Self;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
let b = unsafe { ::flatbuffers::read_scalar_at::<u8>(buf, loc) };
Self(b)
}
}
impl ::flatbuffers::Push for Equipment {
type Output = Equipment;
#[inline]
unsafe fn push(&self, dst: &mut [u8], _written_len: usize) {
unsafe { ::flatbuffers::emplace_scalar::<u8>(dst, self.0) };
@@ -72,85 +63,75 @@ impl ::flatbuffers::Push for Equipment {
}
impl ::flatbuffers::EndianScalar for Equipment {
type Scalar = u8;
#[inline]
fn to_little_endian(self) -> u8 {
self.0.to_le()
}
#[inline]
#[allow(clippy::wrong_self_convention)]
fn from_little_endian(v: u8) -> Self {
let b = u8::from_le(v);
Self(b)
}
type Scalar = u8;
#[inline]
fn to_little_endian(self) -> u8 {
self.0.to_le()
}
#[inline]
#[allow(clippy::wrong_self_convention)]
fn from_little_endian(v: u8) -> Self {
let b = u8::from_le(v);
Self(b)
}
}
impl<'a> ::flatbuffers::Verifiable for Equipment {
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
u8::run_verifier(v, pos)
}
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
u8::run_verifier(v, pos)
}
}
impl ::flatbuffers::SimpleToVerifyInSlice for Equipment {}
pub struct EquipmentUnionTableOffset {}
#[allow(clippy::upper_case_acronyms)]
#[non_exhaustive]
#[derive(Debug, Clone, PartialEq)]
pub enum EquipmentT {
NONE,
Weapon(alloc::boxed::Box<WeaponT>),
NONE,
Weapon(alloc::boxed::Box<WeaponT>),
}
impl Default for EquipmentT {
fn default() -> Self {
Self::NONE
}
fn default() -> Self {
Self::NONE
}
}
impl EquipmentT {
pub fn equipment_type(&self) -> Equipment {
match self {
Self::NONE => Equipment::NONE,
Self::Weapon(_) => Equipment::Weapon,
}
pub fn equipment_type(&self) -> Equipment {
match self {
Self::NONE => Equipment::NONE,
Self::Weapon(_) => Equipment::Weapon,
}
pub fn pack<'b, A: ::flatbuffers::Allocator + 'b>(&self, fbb: &mut ::flatbuffers::FlatBufferBuilder<'b, A>) -> Option<::flatbuffers::WIPOffset<::flatbuffers::UnionWIPOffset>> {
match self {
Self::NONE => None,
Self::Weapon(v) => Some(v.pack(fbb).as_union_value()),
}
}
pub fn pack<'b, A: ::flatbuffers::Allocator + 'b>(&self, fbb: &mut ::flatbuffers::FlatBufferBuilder<'b, A>) -> Option<::flatbuffers::WIPOffset<::flatbuffers::UnionWIPOffset>> {
match self {
Self::NONE => None,
Self::Weapon(v) => Some(v.pack(fbb).as_union_value()),
}
/// If the union variant matches, return the owned WeaponT, setting the union to NONE.
pub fn take_weapon(&mut self) -> Option<alloc::boxed::Box<WeaponT>> {
if let Self::Weapon(_) = self {
let v = ::core::mem::replace(self, Self::NONE);
if let Self::Weapon(w) = v {
Some(w)
} else {
unreachable!()
}
} else {
None
}
}
/// If the union variant matches, return a reference to the WeaponT.
pub fn as_weapon(&self) -> Option<&WeaponT> {
if let Self::Weapon(v) = self { Some(v.as_ref()) } else { None }
}
/// If the union variant matches, return a mutable reference to the WeaponT.
pub fn as_weapon_mut(&mut self) -> Option<&mut WeaponT> {
if let Self::Weapon(v) = self { Some(v.as_mut()) } else { None }
}
/// If the union variant matches, return the owned WeaponT, setting the union to NONE.
pub fn take_weapon(&mut self) -> Option<alloc::boxed::Box<WeaponT>> {
if let Self::Weapon(_) = self {
let v = ::core::mem::replace(self, Self::NONE);
if let Self::Weapon(w) = v {
Some(w)
} else {
unreachable!()
}
} else {
None
}
}
/// If the union variant matches, return a reference to the WeaponT.
pub fn as_weapon(&self) -> Option<&WeaponT> {
if let Self::Weapon(v) = self { Some(v.as_ref()) } else { None }
}
/// If the union variant matches, return a mutable reference to the WeaponT.
pub fn as_weapon_mut(&mut self) -> Option<&mut WeaponT> {
if let Self::Weapon(v) = self { Some(v.as_mut()) } else { None }
}
}

View File

@@ -2,225 +2,212 @@
// @generated
extern crate alloc;
use super::*;
pub enum MonsterOffset {}
#[derive(Copy, Clone, PartialEq)]
pub struct Monster<'a> {
pub _tab: ::flatbuffers::Table<'a>,
pub _tab: ::flatbuffers::Table<'a>,
}
impl<'a> ::flatbuffers::Follow<'a> for Monster<'a> {
type Inner = Monster<'a>;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
Self { _tab: unsafe { ::flatbuffers::Table::new(buf, loc) } }
}
type Inner = Monster<'a>;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
Self { _tab: unsafe { ::flatbuffers::Table::new(buf, loc) } }
}
}
impl<'a> Monster<'a> {
pub const VT_POS: ::flatbuffers::VOffsetT = 4;
pub const VT_MANA: ::flatbuffers::VOffsetT = 6;
pub const VT_HP: ::flatbuffers::VOffsetT = 8;
pub const VT_NAME: ::flatbuffers::VOffsetT = 10;
pub const VT_INVENTORY: ::flatbuffers::VOffsetT = 14;
pub const VT_COLOR: ::flatbuffers::VOffsetT = 16;
pub const VT_WEAPONS: ::flatbuffers::VOffsetT = 18;
pub const VT_EQUIPPED_TYPE: ::flatbuffers::VOffsetT = 20;
pub const VT_EQUIPPED: ::flatbuffers::VOffsetT = 22;
pub const VT_PATH: ::flatbuffers::VOffsetT = 24;
pub const VT_POS: ::flatbuffers::VOffsetT = 4;
pub const VT_MANA: ::flatbuffers::VOffsetT = 6;
pub const VT_HP: ::flatbuffers::VOffsetT = 8;
pub const VT_NAME: ::flatbuffers::VOffsetT = 10;
pub const VT_INVENTORY: ::flatbuffers::VOffsetT = 14;
pub const VT_COLOR: ::flatbuffers::VOffsetT = 16;
pub const VT_WEAPONS: ::flatbuffers::VOffsetT = 18;
pub const VT_EQUIPPED_TYPE: ::flatbuffers::VOffsetT = 20;
pub const VT_EQUIPPED: ::flatbuffers::VOffsetT = 22;
pub const VT_PATH: ::flatbuffers::VOffsetT = 24;
pub const fn get_fully_qualified_name() -> &'static str {
"MyGame.Sample.Monster"
}
pub const fn get_fully_qualified_name() -> &'static str {
"MyGame.Sample.Monster"
}
#[inline]
pub unsafe fn init_from_table(table: ::flatbuffers::Table<'a>) -> Self {
Monster { _tab: table }
}
#[inline]
pub unsafe fn init_from_table(table: ::flatbuffers::Table<'a>) -> Self {
Monster { _tab: table }
}
#[allow(unused_mut)]
pub fn create<'bldr: 'args, 'args: 'mut_bldr, 'mut_bldr, A: ::flatbuffers::Allocator + 'bldr>(
_fbb: &'mut_bldr mut ::flatbuffers::FlatBufferBuilder<'bldr, A>,
args: &'args MonsterArgs<'args>
) -> ::flatbuffers::WIPOffset<Monster<'bldr>> {
let mut builder = MonsterBuilder::new(_fbb);
if let Some(x) = args.path { builder.add_path(x); }
if let Some(x) = args.equipped { builder.add_equipped(x); }
if let Some(x) = args.weapons { builder.add_weapons(x); }
if let Some(x) = args.inventory { builder.add_inventory(x); }
if let Some(x) = args.name { builder.add_name(x); }
if let Some(x) = args.pos { builder.add_pos(x); }
builder.add_hp(args.hp);
builder.add_mana(args.mana);
builder.add_equipped_type(args.equipped_type);
builder.add_color(args.color);
builder.finish()
}
#[allow(unused_mut)]
pub fn create<'bldr: 'args, 'args: 'mut_bldr, 'mut_bldr, A: ::flatbuffers::Allocator + 'bldr>(
_fbb: &'mut_bldr mut ::flatbuffers::FlatBufferBuilder<'bldr, A>,
args: &'args MonsterArgs<'args>
) -> ::flatbuffers::WIPOffset<Monster<'bldr>> {
let mut builder = MonsterBuilder::new(_fbb);
if let Some(x) = args.path { builder.add_path(x); }
if let Some(x) = args.equipped { builder.add_equipped(x); }
if let Some(x) = args.weapons { builder.add_weapons(x); }
if let Some(x) = args.inventory { builder.add_inventory(x); }
if let Some(x) = args.name { builder.add_name(x); }
if let Some(x) = args.pos { builder.add_pos(x); }
builder.add_hp(args.hp);
builder.add_mana(args.mana);
builder.add_equipped_type(args.equipped_type);
builder.add_color(args.color);
builder.finish()
pub fn unpack(&self) -> MonsterT {
let pos = self.pos().map(|x| {
x.unpack()
});
let mana = self.mana();
let hp = self.hp();
let name = self.name().map(|x| {
alloc::string::ToString::to_string(x)
});
let inventory = self.inventory().map(|x| {
x.into_iter().collect()
});
let color = self.color();
let weapons = self.weapons().map(|x| {
x.iter().map(|t| t.unpack()).collect()
});
let equipped = match self.equipped_type() {
Equipment::NONE => EquipmentT::NONE,
Equipment::Weapon => EquipmentT::Weapon(alloc::boxed::Box::new(
self.equipped_as_weapon()
.expect("Invalid union table, expected `Equipment::Weapon`.")
.unpack()
)),
_ => EquipmentT::NONE,
};
let path = self.path().map(|x| {
x.iter().map(|t| t.unpack()).collect()
});
MonsterT {
pos,
mana,
hp,
name,
inventory,
color,
weapons,
equipped,
path,
}
}
pub fn unpack(&self) -> MonsterT {
let pos = self.pos().map(|x| {
x.unpack()
});
let mana = self.mana();
let hp = self.hp();
let name = self.name().map(|x| {
alloc::string::ToString::to_string(x)
});
let inventory = self.inventory().map(|x| {
x.into_iter().collect()
});
let color = self.color();
let weapons = self.weapons().map(|x| {
x.iter().map(|t| t.unpack()).collect()
});
let equipped = match self.equipped_type() {
Equipment::NONE => EquipmentT::NONE,
Equipment::Weapon => EquipmentT::Weapon(alloc::boxed::Box::new(
self.equipped_as_weapon()
.expect("Invalid union table, expected `Equipment::Weapon`.")
.unpack()
)),
_ => EquipmentT::NONE,
};
let path = self.path().map(|x| {
x.iter().map(|t| t.unpack()).collect()
});
MonsterT {
pos,
mana,
hp,
name,
inventory,
color,
weapons,
equipped,
path,
}
#[inline]
pub fn pos(&self) -> Option<&'a Vec3> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<Vec3>(Monster::VT_POS, None)}
}
#[inline]
pub fn mana(&self) -> i16 {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<i16>(Monster::VT_MANA, Some(150)).unwrap()}
}
#[inline]
pub fn hp(&self) -> i16 {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<i16>(Monster::VT_HP, Some(100)).unwrap()}
}
#[inline]
pub fn name(&self) -> Option<&'a str> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<&str>>(Monster::VT_NAME, None)}
}
#[inline]
pub fn inventory(&self) -> Option<::flatbuffers::Vector<'a, u8>> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'a, u8>>>(Monster::VT_INVENTORY, None)}
}
#[inline]
pub fn color(&self) -> Color {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<Color>(Monster::VT_COLOR, Some(Color::Blue)).unwrap()}
}
#[inline]
pub fn weapons(&self) -> Option<::flatbuffers::Vector<'a, ::flatbuffers::ForwardsUOffset<Weapon<'a>>>> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'a, ::flatbuffers::ForwardsUOffset<Weapon>>>>(Monster::VT_WEAPONS, None)}
}
#[inline]
pub fn equipped_type(&self) -> Equipment {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<Equipment>(Monster::VT_EQUIPPED_TYPE, Some(Equipment::NONE)).unwrap()}
}
#[inline]
pub fn equipped(&self) -> Option<::flatbuffers::Table<'a>> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<::flatbuffers::Table<'a>>>(Monster::VT_EQUIPPED, None)}
}
#[inline]
pub fn path(&self) -> Option<::flatbuffers::Vector<'a, Vec3>> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'a, Vec3>>>(Monster::VT_PATH, None)}
}
#[inline]
#[allow(non_snake_case)]
pub fn equipped_as_weapon(&self) -> Option<Weapon<'a>> {
if self.equipped_type() == Equipment::Weapon {
self.equipped().map(|t| {
// Safety:
// Created from a valid Table for this object
// Which contains a valid union in this slot
unsafe { Weapon::init_from_table(t) }
})
} else {
None
}
}
#[inline]
pub fn pos(&self) -> Option<&'a Vec3> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<Vec3>(Monster::VT_POS, None)}
}
#[inline]
pub fn mana(&self) -> i16 {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<i16>(Monster::VT_MANA, Some(150)).unwrap()}
}
#[inline]
pub fn hp(&self) -> i16 {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<i16>(Monster::VT_HP, Some(100)).unwrap()}
}
#[inline]
pub fn name(&self) -> Option<&'a str> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<&str>>(Monster::VT_NAME, None)}
}
#[inline]
pub fn inventory(&self) -> Option<::flatbuffers::Vector<'a, u8>> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'a, u8>>>(Monster::VT_INVENTORY, None)}
}
#[inline]
pub fn color(&self) -> Color {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<Color>(Monster::VT_COLOR, Some(Color::Blue)).unwrap()}
}
#[inline]
pub fn weapons(&self) -> Option<::flatbuffers::Vector<'a, ::flatbuffers::ForwardsUOffset<Weapon<'a>>>> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'a, ::flatbuffers::ForwardsUOffset<Weapon>>>>(Monster::VT_WEAPONS, None)}
}
#[inline]
pub fn equipped_type(&self) -> Equipment {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<Equipment>(Monster::VT_EQUIPPED_TYPE, Some(Equipment::NONE)).unwrap()}
}
#[inline]
pub fn equipped(&self) -> Option<::flatbuffers::Table<'a>> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<::flatbuffers::Table<'a>>>(Monster::VT_EQUIPPED, None)}
}
#[inline]
pub fn path(&self) -> Option<::flatbuffers::Vector<'a, Vec3>> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'a, Vec3>>>(Monster::VT_PATH, None)}
}
#[inline]
#[allow(non_snake_case)]
pub fn equipped_as_weapon(&self) -> Option<Weapon<'a>> {
if self.equipped_type() == Equipment::Weapon {
self.equipped().map(|t| {
// Safety:
// Created from a valid Table for this object
// Which contains a valid union in this slot
unsafe { Weapon::init_from_table(t) }
})
} else {
None
}
}
}
impl ::flatbuffers::Verifiable for Monster<'_> {
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
v.visit_table(pos)?
.visit_field::<Vec3>("pos", Self::VT_POS, false)?
.visit_field::<i16>("mana", Self::VT_MANA, false)?
.visit_field::<i16>("hp", Self::VT_HP, false)?
.visit_field::<::flatbuffers::ForwardsUOffset<&str>>("name", Self::VT_NAME, false)?
.visit_field::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'_, u8>>>("inventory", Self::VT_INVENTORY, false)?
.visit_field::<Color>("color", Self::VT_COLOR, false)?
.visit_field::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'_, ::flatbuffers::ForwardsUOffset<Weapon>>>>("weapons", Self::VT_WEAPONS, false)?
.visit_union::<Equipment, _>("equipped_type", Self::VT_EQUIPPED_TYPE, "equipped", Self::VT_EQUIPPED, false, |key, v, pos| {
match key {
Equipment::Weapon => v.verify_union_variant::<::flatbuffers::ForwardsUOffset<Weapon>>("Equipment::Weapon", pos),
_ => Ok(()),
}
})?
.visit_field::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'_, Vec3>>>("path", Self::VT_PATH, false)?
.finish();
Ok(())
}
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
v.visit_table(pos)?
.visit_field::<Vec3>("pos", Self::VT_POS, false)?
.visit_field::<i16>("mana", Self::VT_MANA, false)?
.visit_field::<i16>("hp", Self::VT_HP, false)?
.visit_field::<::flatbuffers::ForwardsUOffset<&str>>("name", Self::VT_NAME, false)?
.visit_field::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'_, u8>>>("inventory", Self::VT_INVENTORY, false)?
.visit_field::<Color>("color", Self::VT_COLOR, false)?
.visit_field::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'_, ::flatbuffers::ForwardsUOffset<Weapon>>>>("weapons", Self::VT_WEAPONS, false)?
.visit_union::<Equipment, _>("equipped_type", Self::VT_EQUIPPED_TYPE, "equipped", Self::VT_EQUIPPED, false, |key, v, pos| {
match key {
Equipment::Weapon => v.verify_union_variant::<::flatbuffers::ForwardsUOffset<Weapon>>("Equipment::Weapon", pos),
_ => Ok(()),
}
})?
.visit_field::<::flatbuffers::ForwardsUOffset<::flatbuffers::Vector<'_, Vec3>>>("path", Self::VT_PATH, false)?
.finish();
Ok(())
}
}
pub struct MonsterArgs<'a> {
pub pos: Option<&'a Vec3>,
pub mana: i16,
@@ -233,273 +220,246 @@ pub struct MonsterArgs<'a> {
pub equipped: Option<::flatbuffers::WIPOffset<::flatbuffers::UnionWIPOffset>>,
pub path: Option<::flatbuffers::WIPOffset<::flatbuffers::Vector<'a, Vec3>>>,
}
impl<'a> Default for MonsterArgs<'a> {
#[inline]
fn default() -> Self {
MonsterArgs {
pos: None,
mana: 150,
hp: 100,
name: None,
inventory: None,
color: Color::Blue,
weapons: None,
equipped_type: Equipment::NONE,
equipped: None,
path: None,
}
#[inline]
fn default() -> Self {
MonsterArgs {
pos: None,
mana: 150,
hp: 100,
name: None,
inventory: None,
color: Color::Blue,
weapons: None,
equipped_type: Equipment::NONE,
equipped: None,
path: None,
}
}
}
pub struct MonsterBuilder<'a: 'b, 'b, A: ::flatbuffers::Allocator + 'a> {
fbb_: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>,
start_: ::flatbuffers::WIPOffset<::flatbuffers::TableUnfinishedWIPOffset>,
fbb_: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>,
start_: ::flatbuffers::WIPOffset<::flatbuffers::TableUnfinishedWIPOffset>,
}
impl<'a: 'b, 'b, A: ::flatbuffers::Allocator + 'a> MonsterBuilder<'a, 'b, A> {
#[inline]
pub fn add_pos(&mut self, pos: &Vec3) {
self.fbb_.push_slot_always::<&Vec3>(Monster::VT_POS, pos);
}
#[inline]
pub fn add_mana(&mut self, mana: i16) {
self.fbb_.push_slot::<i16>(Monster::VT_MANA, mana, 150);
}
#[inline]
pub fn add_hp(&mut self, hp: i16) {
self.fbb_.push_slot::<i16>(Monster::VT_HP, hp, 100);
}
#[inline]
pub fn add_name(&mut self, name: ::flatbuffers::WIPOffset<&'b str>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Monster::VT_NAME, name);
}
#[inline]
pub fn add_inventory(&mut self, inventory: ::flatbuffers::WIPOffset<::flatbuffers::Vector<'b , u8>>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Monster::VT_INVENTORY, inventory);
}
#[inline]
pub fn add_color(&mut self, color: Color) {
self.fbb_.push_slot::<Color>(Monster::VT_COLOR, color, Color::Blue);
}
#[inline]
pub fn add_weapons(&mut self, weapons: ::flatbuffers::WIPOffset<::flatbuffers::Vector<'b , ::flatbuffers::ForwardsUOffset<Weapon<'b >>>>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Monster::VT_WEAPONS, weapons);
}
#[inline]
pub fn add_equipped_type(&mut self, equipped_type: Equipment) {
self.fbb_.push_slot::<Equipment>(Monster::VT_EQUIPPED_TYPE, equipped_type, Equipment::NONE);
}
#[inline]
pub fn add_equipped(&mut self, equipped: ::flatbuffers::WIPOffset<::flatbuffers::UnionWIPOffset>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Monster::VT_EQUIPPED, equipped);
}
#[inline]
pub fn add_path(&mut self, path: ::flatbuffers::WIPOffset<::flatbuffers::Vector<'b , Vec3>>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Monster::VT_PATH, path);
}
#[inline]
pub fn new(_fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>) -> MonsterBuilder<'a, 'b, A> {
let start = _fbb.start_table();
MonsterBuilder {
fbb_: _fbb,
start_: start,
}
}
#[inline]
pub fn finish(self) -> ::flatbuffers::WIPOffset<Monster<'a>> {
let o = self.fbb_.end_table(self.start_);
::flatbuffers::WIPOffset::new(o.value())
#[inline]
pub fn add_pos(&mut self, pos: &Vec3) {
self.fbb_.push_slot_always::<&Vec3>(Monster::VT_POS, pos);
}
#[inline]
pub fn add_mana(&mut self, mana: i16) {
self.fbb_.push_slot::<i16>(Monster::VT_MANA, mana, 150);
}
#[inline]
pub fn add_hp(&mut self, hp: i16) {
self.fbb_.push_slot::<i16>(Monster::VT_HP, hp, 100);
}
#[inline]
pub fn add_name(&mut self, name: ::flatbuffers::WIPOffset<&'b str>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Monster::VT_NAME, name);
}
#[inline]
pub fn add_inventory(&mut self, inventory: ::flatbuffers::WIPOffset<::flatbuffers::Vector<'b , u8>>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Monster::VT_INVENTORY, inventory);
}
#[inline]
pub fn add_color(&mut self, color: Color) {
self.fbb_.push_slot::<Color>(Monster::VT_COLOR, color, Color::Blue);
}
#[inline]
pub fn add_weapons(&mut self, weapons: ::flatbuffers::WIPOffset<::flatbuffers::Vector<'b , ::flatbuffers::ForwardsUOffset<Weapon<'b >>>>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Monster::VT_WEAPONS, weapons);
}
#[inline]
pub fn add_equipped_type(&mut self, equipped_type: Equipment) {
self.fbb_.push_slot::<Equipment>(Monster::VT_EQUIPPED_TYPE, equipped_type, Equipment::NONE);
}
#[inline]
pub fn add_equipped(&mut self, equipped: ::flatbuffers::WIPOffset<::flatbuffers::UnionWIPOffset>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Monster::VT_EQUIPPED, equipped);
}
#[inline]
pub fn add_path(&mut self, path: ::flatbuffers::WIPOffset<::flatbuffers::Vector<'b , Vec3>>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Monster::VT_PATH, path);
}
#[inline]
pub fn new(_fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>) -> MonsterBuilder<'a, 'b, A> {
let start = _fbb.start_table();
MonsterBuilder {
fbb_: _fbb,
start_: start,
}
}
#[inline]
pub fn finish(self) -> ::flatbuffers::WIPOffset<Monster<'a>> {
let o = self.fbb_.end_table(self.start_);
::flatbuffers::WIPOffset::new(o.value())
}
}
impl ::core::fmt::Debug for Monster<'_> {
fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result {
let mut ds = f.debug_struct("Monster");
ds.field("pos", &self.pos());
ds.field("mana", &self.mana());
ds.field("hp", &self.hp());
ds.field("name", &self.name());
ds.field("inventory", &self.inventory());
ds.field("color", &self.color());
ds.field("weapons", &self.weapons());
ds.field("equipped_type", &self.equipped_type());
match self.equipped_type() {
Equipment::Weapon => {
if let Some(x) = self.equipped_as_weapon() {
ds.field("equipped", &x)
} else {
ds.field("equipped", &"InvalidFlatbuffer: Union discriminant does not match value.")
}
},
_ => {
let x: Option<()> = None;
ds.field("equipped", &x)
},
};
ds.field("path", &self.path());
ds.finish()
}
fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result {
let mut ds = f.debug_struct("Monster");
ds.field("pos", &self.pos());
ds.field("mana", &self.mana());
ds.field("hp", &self.hp());
ds.field("name", &self.name());
ds.field("inventory", &self.inventory());
ds.field("color", &self.color());
ds.field("weapons", &self.weapons());
ds.field("equipped_type", &self.equipped_type());
match self.equipped_type() {
Equipment::Weapon => {
if let Some(x) = self.equipped_as_weapon() {
ds.field("equipped", &x)
} else {
ds.field("equipped", &"InvalidFlatbuffer: Union discriminant does not match value.")
}
},
_ => {
let x: Option<()> = None;
ds.field("equipped", &x)
},
};
ds.field("path", &self.path());
ds.finish()
}
}
#[non_exhaustive]
#[derive(Debug, Clone, PartialEq)]
pub struct MonsterT {
pub pos: Option<Vec3T>,
pub mana: i16,
pub hp: i16,
pub name: Option<alloc::string::String>,
pub inventory: Option<alloc::vec::Vec<u8>>,
pub color: Color,
pub weapons: Option<alloc::vec::Vec<WeaponT>>,
pub equipped: EquipmentT,
pub path: Option<alloc::vec::Vec<Vec3T>>,
pub pos: Option<Vec3T>,
pub mana: i16,
pub hp: i16,
pub name: Option<alloc::string::String>,
pub inventory: Option<alloc::vec::Vec<u8>>,
pub color: Color,
pub weapons: Option<alloc::vec::Vec<WeaponT>>,
pub equipped: EquipmentT,
pub path: Option<alloc::vec::Vec<Vec3T>>,
}
impl Default for MonsterT {
fn default() -> Self {
Self {
pos: None,
mana: 150,
hp: 100,
name: None,
inventory: None,
color: Color::Blue,
weapons: None,
equipped: EquipmentT::NONE,
path: None,
}
fn default() -> Self {
Self {
pos: None,
mana: 150,
hp: 100,
name: None,
inventory: None,
color: Color::Blue,
weapons: None,
equipped: EquipmentT::NONE,
path: None,
}
}
}
impl MonsterT {
pub fn pack<'b, A: ::flatbuffers::Allocator + 'b>(
&self,
_fbb: &mut ::flatbuffers::FlatBufferBuilder<'b, A>
) -> ::flatbuffers::WIPOffset<Monster<'b>> {
let pos_tmp = self.pos.as_ref().map(|x| x.pack());
let pos = pos_tmp.as_ref();
let mana = self.mana;
let hp = self.hp;
let name = self.name.as_ref().map(|x|{
_fbb.create_string(x)
});
let inventory = self.inventory.as_ref().map(|x|{
_fbb.create_vector(x)
});
let color = self.color;
let weapons = self.weapons.as_ref().map(|x|{
let w: alloc::vec::Vec<_> = x.iter().map(|t| t.pack(_fbb)).collect();_fbb.create_vector(&w)
});
let equipped_type = self.equipped.equipment_type();
let equipped = self.equipped.pack(_fbb);
let path = self.path.as_ref().map(|x|{
let w: alloc::vec::Vec<_> = x.iter().map(|t| t.pack()).collect();_fbb.create_vector(&w)
});
Monster::create(_fbb, &MonsterArgs{
pos,
mana,
hp,
name,
inventory,
color,
weapons,
equipped_type,
equipped,
path,
})
}
pub fn pack<'b, A: ::flatbuffers::Allocator + 'b>(
&self,
_fbb: &mut ::flatbuffers::FlatBufferBuilder<'b, A>
) -> ::flatbuffers::WIPOffset<Monster<'b>> {
let pos_tmp = self.pos.as_ref().map(|x| x.pack());
let pos = pos_tmp.as_ref();
let mana = self.mana;
let hp = self.hp;
let name = self.name.as_ref().map(|x|{
_fbb.create_string(x)
});
let inventory = self.inventory.as_ref().map(|x|{
_fbb.create_vector(x)
});
let color = self.color;
let weapons = self.weapons.as_ref().map(|x|{
let w: alloc::vec::Vec<_> = x.iter().map(|t| t.pack(_fbb)).collect();_fbb.create_vector(&w)
});
let equipped_type = self.equipped.equipment_type();
let equipped = self.equipped.pack(_fbb);
let path = self.path.as_ref().map(|x|{
let w: alloc::vec::Vec<_> = x.iter().map(|t| t.pack()).collect();_fbb.create_vector(&w)
});
Monster::create(_fbb, &MonsterArgs{
pos,
mana,
hp,
name,
inventory,
color,
weapons,
equipped_type,
equipped,
path,
})
}
}
#[inline]
/// Verifies that a buffer of bytes contains a `Monster`
/// and returns it.
/// Note that verification is still experimental and may not
/// catch every error, or be maximally performant. For the
/// previous, unchecked, behavior use
/// `root_as_monster_unchecked`.
#[inline]
pub fn root_as_monster(buf: &[u8]) -> Result<Monster<'_>, ::flatbuffers::InvalidFlatbuffer> {
::flatbuffers::root::<Monster>(buf)
::flatbuffers::root::<Monster>(buf)
}
#[inline]
/// Verifies that a buffer of bytes contains a size prefixed
/// `Monster` and returns it.
/// Note that verification is still experimental and may not
/// catch every error, or be maximally performant. For the
/// previous, unchecked, behavior use
/// `size_prefixed_root_as_monster_unchecked`.
#[inline]
pub fn size_prefixed_root_as_monster(buf: &[u8]) -> Result<Monster<'_>, ::flatbuffers::InvalidFlatbuffer> {
::flatbuffers::size_prefixed_root::<Monster>(buf)
::flatbuffers::size_prefixed_root::<Monster>(buf)
}
#[inline]
/// Verifies, with the given options, that a buffer of bytes
/// contains a `Monster` and returns it.
/// Note that verification is still experimental and may not
/// catch every error, or be maximally performant. For the
/// previous, unchecked, behavior use
/// `root_as_monster_unchecked`.
#[inline]
pub fn root_as_monster_with_opts<'b, 'o>(
opts: &'o ::flatbuffers::VerifierOptions,
buf: &'b [u8],
opts: &'o ::flatbuffers::VerifierOptions,
buf: &'b [u8],
) -> Result<Monster<'b>, ::flatbuffers::InvalidFlatbuffer> {
::flatbuffers::root_with_opts::<Monster<'b>>(opts, buf)
::flatbuffers::root_with_opts::<Monster<'b>>(opts, buf)
}
#[inline]
/// Verifies, with the given verifier options, that a buffer of
/// bytes contains a size prefixed `Monster` and returns
/// it. Note that verification is still experimental and may not
/// catch every error, or be maximally performant. For the
/// previous, unchecked, behavior use
/// `root_as_monster_unchecked`.
#[inline]
pub fn size_prefixed_root_as_monster_with_opts<'b, 'o>(
opts: &'o ::flatbuffers::VerifierOptions,
buf: &'b [u8],
opts: &'o ::flatbuffers::VerifierOptions,
buf: &'b [u8],
) -> Result<Monster<'b>, ::flatbuffers::InvalidFlatbuffer> {
::flatbuffers::size_prefixed_root_with_opts::<Monster<'b>>(opts, buf)
::flatbuffers::size_prefixed_root_with_opts::<Monster<'b>>(opts, buf)
}
#[inline]
/// Assumes, without verification, that a buffer of bytes contains a Monster and returns it.
/// # Safety
/// Callers must trust the given bytes do indeed contain a valid `Monster`.
#[inline]
pub unsafe fn root_as_monster_unchecked(buf: &[u8]) -> Monster<'_> {
unsafe { ::flatbuffers::root_unchecked::<Monster>(buf) }
unsafe { ::flatbuffers::root_unchecked::<Monster>(buf) }
}
#[inline]
/// Assumes, without verification, that a buffer of bytes contains a size prefixed Monster and returns it.
/// # Safety
/// Callers must trust the given bytes do indeed contain a valid size prefixed `Monster`.
#[inline]
pub unsafe fn size_prefixed_root_as_monster_unchecked(buf: &[u8]) -> Monster<'_> {
unsafe { ::flatbuffers::size_prefixed_root_unchecked::<Monster>(buf) }
unsafe { ::flatbuffers::size_prefixed_root_unchecked::<Monster>(buf) }
}
#[inline]
pub fn finish_monster_buffer<'a, 'b, A: ::flatbuffers::Allocator + 'a>(
fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>,
root: ::flatbuffers::WIPOffset<Monster<'a>>
) {
fbb.finish(root, None);
root: ::flatbuffers::WIPOffset<Monster<'a>>) {
fbb.finish(root, None);
}
#[inline]
pub fn finish_size_prefixed_monster_buffer<'a, 'b, A: ::flatbuffers::Allocator + 'a>(
fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>,
root: ::flatbuffers::WIPOffset<Monster<'a>>
) {
fbb.finish_size_prefixed(root, None);
pub fn finish_size_prefixed_monster_buffer<'a, 'b, A: ::flatbuffers::Allocator + 'a>(fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>, root: ::flatbuffers::WIPOffset<Monster<'a>>) {
fbb.finish_size_prefixed(root, None);
}

View File

@@ -2,57 +2,47 @@
// @generated
extern crate alloc;
use super::*;
// struct Vec3, aligned to 4
#[repr(transparent)]
#[derive(Clone, Copy, PartialEq)]
pub struct Vec3(pub [u8; 12]);
impl Default for Vec3 {
fn default() -> Self {
Self([0; 12])
}
impl Default for Vec3 {
fn default() -> Self {
Self([0; 12])
}
}
impl ::core::fmt::Debug for Vec3 {
fn fmt(&self, f: &mut ::core::fmt::Formatter) -> ::core::fmt::Result {
f.debug_struct("Vec3")
.field("x", &self.x())
.field("y", &self.y())
.field("z", &self.z())
.finish()
}
fn fmt(&self, f: &mut ::core::fmt::Formatter) -> ::core::fmt::Result {
f.debug_struct("Vec3")
.field("x", &self.x())
.field("y", &self.y())
.field("z", &self.z())
.finish()
}
}
impl ::flatbuffers::SimpleToVerifyInSlice for Vec3 {}
impl<'a> ::flatbuffers::Follow<'a> for Vec3 {
type Inner = &'a Vec3;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
unsafe { <&'a Vec3>::follow(buf, loc) }
}
type Inner = &'a Vec3;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
unsafe { <&'a Vec3>::follow(buf, loc) }
}
}
impl<'a> ::flatbuffers::Follow<'a> for &'a Vec3 {
type Inner = &'a Vec3;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
unsafe { ::flatbuffers::follow_cast_ref::<Vec3>(buf, loc) }
}
type Inner = &'a Vec3;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
unsafe { ::flatbuffers::follow_cast_ref::<Vec3>(buf, loc) }
}
}
impl<'b> ::flatbuffers::Push for Vec3 {
type Output = Vec3;
#[inline]
unsafe fn push(&self, dst: &mut [u8], _written_len: usize) {
let src = unsafe { ::core::slice::from_raw_parts(self as *const Vec3 as *const u8, <Self as ::flatbuffers::Push>::size()) };
dst.copy_from_slice(src);
}
#[inline]
fn alignment() -> ::flatbuffers::PushAlignment {
::flatbuffers::PushAlignment::new(4)
@@ -60,150 +50,141 @@ impl<'b> ::flatbuffers::Push for Vec3 {
}
impl<'a> ::flatbuffers::Verifiable for Vec3 {
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
v.in_buffer::<Self>(pos)
}
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
v.in_buffer::<Self>(pos)
}
}
impl<'a> Vec3 {
#[allow(clippy::too_many_arguments)]
pub fn new(
x: f32,
y: f32,
z: f32,
) -> Self {
let mut s = Self([0; 12]);
s.set_x(x);
s.set_y(y);
s.set_z(z);
s
}
#[allow(clippy::too_many_arguments)]
pub fn new(
x: f32,
y: f32,
z: f32,
) -> Self {
let mut s = Self([0; 12]);
s.set_x(x);
s.set_y(y);
s.set_z(z);
s
}
pub const fn get_fully_qualified_name() -> &'static str {
"MyGame.Sample.Vec3"
}
pub const fn get_fully_qualified_name() -> &'static str {
"MyGame.Sample.Vec3"
}
pub fn x(&self) -> f32 {
let mut mem = ::core::mem::MaybeUninit::<<f32 as ::flatbuffers::EndianScalar>::Scalar>::uninit();
// Safety:
// Created from a valid Table for this object
// Which contains a valid value in this slot
::flatbuffers::EndianScalar::from_little_endian(unsafe {
::core::ptr::copy_nonoverlapping(
self.0[0..].as_ptr(),
mem.as_mut_ptr() as *mut u8,
::core::mem::size_of::<<f32 as ::flatbuffers::EndianScalar>::Scalar>(),
);
mem.assume_init()
})
}
pub fn x(&self) -> f32 {
let mut mem = ::core::mem::MaybeUninit::<<f32 as ::flatbuffers::EndianScalar>::Scalar>::uninit();
// Safety:
// Created from a valid Table for this object
// Which contains a valid value in this slot
::flatbuffers::EndianScalar::from_little_endian(unsafe {
::core::ptr::copy_nonoverlapping(
self.0[0..].as_ptr(),
mem.as_mut_ptr() as *mut u8,
::core::mem::size_of::<<f32 as ::flatbuffers::EndianScalar>::Scalar>(),
);
mem.assume_init()
})
}
pub fn set_x(&mut self, x: f32) {
let x_le = ::flatbuffers::EndianScalar::to_little_endian(x);
// Safety:
// Created from a valid Table for this object
// Which contains a valid value in this slot
unsafe {
::core::ptr::copy_nonoverlapping(
&x_le as *const _ as *const u8,
self.0[0..].as_mut_ptr(),
::core::mem::size_of::<<f32 as ::flatbuffers::EndianScalar>::Scalar>(),
);
}
pub fn set_x(&mut self, x: f32) {
let x_le = ::flatbuffers::EndianScalar::to_little_endian(x);
// Safety:
// Created from a valid Table for this object
// Which contains a valid value in this slot
unsafe {
::core::ptr::copy_nonoverlapping(
&x_le as *const _ as *const u8,
self.0[0..].as_mut_ptr(),
::core::mem::size_of::<<f32 as ::flatbuffers::EndianScalar>::Scalar>(),
);
}
}
pub fn y(&self) -> f32 {
let mut mem = ::core::mem::MaybeUninit::<<f32 as ::flatbuffers::EndianScalar>::Scalar>::uninit();
// Safety:
// Created from a valid Table for this object
// Which contains a valid value in this slot
::flatbuffers::EndianScalar::from_little_endian(unsafe {
::core::ptr::copy_nonoverlapping(
self.0[4..].as_ptr(),
mem.as_mut_ptr() as *mut u8,
::core::mem::size_of::<<f32 as ::flatbuffers::EndianScalar>::Scalar>(),
);
mem.assume_init()
})
}
pub fn y(&self) -> f32 {
let mut mem = ::core::mem::MaybeUninit::<<f32 as ::flatbuffers::EndianScalar>::Scalar>::uninit();
// Safety:
// Created from a valid Table for this object
// Which contains a valid value in this slot
::flatbuffers::EndianScalar::from_little_endian(unsafe {
::core::ptr::copy_nonoverlapping(
self.0[4..].as_ptr(),
mem.as_mut_ptr() as *mut u8,
::core::mem::size_of::<<f32 as ::flatbuffers::EndianScalar>::Scalar>(),
);
mem.assume_init()
})
}
pub fn set_y(&mut self, x: f32) {
let x_le = ::flatbuffers::EndianScalar::to_little_endian(x);
// Safety:
// Created from a valid Table for this object
// Which contains a valid value in this slot
unsafe {
::core::ptr::copy_nonoverlapping(
&x_le as *const _ as *const u8,
self.0[4..].as_mut_ptr(),
::core::mem::size_of::<<f32 as ::flatbuffers::EndianScalar>::Scalar>(),
);
}
pub fn set_y(&mut self, x: f32) {
let x_le = ::flatbuffers::EndianScalar::to_little_endian(x);
// Safety:
// Created from a valid Table for this object
// Which contains a valid value in this slot
unsafe {
::core::ptr::copy_nonoverlapping(
&x_le as *const _ as *const u8,
self.0[4..].as_mut_ptr(),
::core::mem::size_of::<<f32 as ::flatbuffers::EndianScalar>::Scalar>(),
);
}
}
pub fn z(&self) -> f32 {
let mut mem = ::core::mem::MaybeUninit::<<f32 as ::flatbuffers::EndianScalar>::Scalar>::uninit();
// Safety:
// Created from a valid Table for this object
// Which contains a valid value in this slot
::flatbuffers::EndianScalar::from_little_endian(unsafe {
::core::ptr::copy_nonoverlapping(
self.0[8..].as_ptr(),
mem.as_mut_ptr() as *mut u8,
::core::mem::size_of::<<f32 as ::flatbuffers::EndianScalar>::Scalar>(),
);
mem.assume_init()
})
}
pub fn z(&self) -> f32 {
let mut mem = ::core::mem::MaybeUninit::<<f32 as ::flatbuffers::EndianScalar>::Scalar>::uninit();
// Safety:
// Created from a valid Table for this object
// Which contains a valid value in this slot
::flatbuffers::EndianScalar::from_little_endian(unsafe {
::core::ptr::copy_nonoverlapping(
self.0[8..].as_ptr(),
mem.as_mut_ptr() as *mut u8,
::core::mem::size_of::<<f32 as ::flatbuffers::EndianScalar>::Scalar>(),
);
mem.assume_init()
})
}
pub fn set_z(&mut self, x: f32) {
let x_le = ::flatbuffers::EndianScalar::to_little_endian(x);
// Safety:
// Created from a valid Table for this object
// Which contains a valid value in this slot
unsafe {
::core::ptr::copy_nonoverlapping(
&x_le as *const _ as *const u8,
self.0[8..].as_mut_ptr(),
::core::mem::size_of::<<f32 as ::flatbuffers::EndianScalar>::Scalar>(),
);
}
pub fn set_z(&mut self, x: f32) {
let x_le = ::flatbuffers::EndianScalar::to_little_endian(x);
// Safety:
// Created from a valid Table for this object
// Which contains a valid value in this slot
unsafe {
::core::ptr::copy_nonoverlapping(
&x_le as *const _ as *const u8,
self.0[8..].as_mut_ptr(),
::core::mem::size_of::<<f32 as ::flatbuffers::EndianScalar>::Scalar>(),
);
}
}
pub fn unpack(&self) -> Vec3T {
Vec3T {
x: self.x(),
y: self.y(),
z: self.z(),
}
pub fn unpack(&self) -> Vec3T {
Vec3T {
x: self.x(),
y: self.y(),
z: self.z(),
}
}
}
#[derive(Debug, Clone, PartialEq)]
#[derive(Debug, Clone, PartialEq, Default)]
pub struct Vec3T {
pub x: f32,
pub y: f32,
pub z: f32,
pub x: f32,
pub y: f32,
pub z: f32,
}
impl Default for Vec3T {
fn default() -> Self {
Self {
x: 0.0,
y: 0.0,
z: 0.0,
}
}
impl Vec3T {
pub fn pack(&self) -> Vec3 {
Vec3::new(
self.x,
self.y,
self.z,
)
}
}
impl Vec3T {
pub fn pack(&self) -> Vec3 {
Vec3::new(
self.x,
self.y,
self.z,
)
}
}

View File

@@ -2,172 +2,159 @@
// @generated
extern crate alloc;
use super::*;
pub enum WeaponOffset {}
#[derive(Copy, Clone, PartialEq)]
pub struct Weapon<'a> {
pub _tab: ::flatbuffers::Table<'a>,
pub _tab: ::flatbuffers::Table<'a>,
}
impl<'a> ::flatbuffers::Follow<'a> for Weapon<'a> {
type Inner = Weapon<'a>;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
Self { _tab: unsafe { ::flatbuffers::Table::new(buf, loc) } }
}
type Inner = Weapon<'a>;
#[inline]
unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
Self { _tab: unsafe { ::flatbuffers::Table::new(buf, loc) } }
}
}
impl<'a> Weapon<'a> {
pub const VT_NAME: ::flatbuffers::VOffsetT = 4;
pub const VT_DAMAGE: ::flatbuffers::VOffsetT = 6;
pub const VT_NAME: ::flatbuffers::VOffsetT = 4;
pub const VT_DAMAGE: ::flatbuffers::VOffsetT = 6;
pub const fn get_fully_qualified_name() -> &'static str {
"MyGame.Sample.Weapon"
}
pub const fn get_fully_qualified_name() -> &'static str {
"MyGame.Sample.Weapon"
}
#[inline]
pub unsafe fn init_from_table(table: ::flatbuffers::Table<'a>) -> Self {
Weapon { _tab: table }
}
#[inline]
pub unsafe fn init_from_table(table: ::flatbuffers::Table<'a>) -> Self {
Weapon { _tab: table }
}
#[allow(unused_mut)]
pub fn create<'bldr: 'args, 'args: 'mut_bldr, 'mut_bldr, A: ::flatbuffers::Allocator + 'bldr>(
_fbb: &'mut_bldr mut ::flatbuffers::FlatBufferBuilder<'bldr, A>,
args: &'args WeaponArgs<'args>
) -> ::flatbuffers::WIPOffset<Weapon<'bldr>> {
let mut builder = WeaponBuilder::new(_fbb);
if let Some(x) = args.name { builder.add_name(x); }
builder.add_damage(args.damage);
builder.finish()
}
#[allow(unused_mut)]
pub fn create<'bldr: 'args, 'args: 'mut_bldr, 'mut_bldr, A: ::flatbuffers::Allocator + 'bldr>(
_fbb: &'mut_bldr mut ::flatbuffers::FlatBufferBuilder<'bldr, A>,
args: &'args WeaponArgs<'args>
) -> ::flatbuffers::WIPOffset<Weapon<'bldr>> {
let mut builder = WeaponBuilder::new(_fbb);
if let Some(x) = args.name { builder.add_name(x); }
builder.add_damage(args.damage);
builder.finish()
pub fn unpack(&self) -> WeaponT {
let name = self.name().map(|x| {
alloc::string::ToString::to_string(x)
});
let damage = self.damage();
WeaponT {
name,
damage,
}
}
pub fn unpack(&self) -> WeaponT {
let name = self.name().map(|x| {
alloc::string::ToString::to_string(x)
});
let damage = self.damage();
WeaponT {
name,
damage,
}
}
#[inline]
pub fn name(&self) -> Option<&'a str> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<&str>>(Weapon::VT_NAME, None)}
}
#[inline]
pub fn damage(&self) -> i16 {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<i16>(Weapon::VT_DAMAGE, Some(0)).unwrap()}
}
#[inline]
pub fn name(&self) -> Option<&'a str> {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<::flatbuffers::ForwardsUOffset<&str>>(Weapon::VT_NAME, None)}
}
#[inline]
pub fn damage(&self) -> i16 {
// Safety:
// Created from valid Table for this object
// which contains a valid value in this slot
unsafe { self._tab.get::<i16>(Weapon::VT_DAMAGE, Some(0)).unwrap()}
}
}
impl ::flatbuffers::Verifiable for Weapon<'_> {
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
v.visit_table(pos)?
.visit_field::<::flatbuffers::ForwardsUOffset<&str>>("name", Self::VT_NAME, false)?
.visit_field::<i16>("damage", Self::VT_DAMAGE, false)?
.finish();
Ok(())
}
#[inline]
fn run_verifier(
v: &mut ::flatbuffers::Verifier, pos: usize
) -> Result<(), ::flatbuffers::InvalidFlatbuffer> {
v.visit_table(pos)?
.visit_field::<::flatbuffers::ForwardsUOffset<&str>>("name", Self::VT_NAME, false)?
.visit_field::<i16>("damage", Self::VT_DAMAGE, false)?
.finish();
Ok(())
}
}
pub struct WeaponArgs<'a> {
pub name: Option<::flatbuffers::WIPOffset<&'a str>>,
pub damage: i16,
}
impl<'a> Default for WeaponArgs<'a> {
#[inline]
fn default() -> Self {
WeaponArgs {
name: None,
damage: 0,
}
#[inline]
fn default() -> Self {
WeaponArgs {
name: None,
damage: 0,
}
}
}
pub struct WeaponBuilder<'a: 'b, 'b, A: ::flatbuffers::Allocator + 'a> {
fbb_: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>,
start_: ::flatbuffers::WIPOffset<::flatbuffers::TableUnfinishedWIPOffset>,
fbb_: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>,
start_: ::flatbuffers::WIPOffset<::flatbuffers::TableUnfinishedWIPOffset>,
}
impl<'a: 'b, 'b, A: ::flatbuffers::Allocator + 'a> WeaponBuilder<'a, 'b, A> {
#[inline]
pub fn add_name(&mut self, name: ::flatbuffers::WIPOffset<&'b str>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Weapon::VT_NAME, name);
}
#[inline]
pub fn add_damage(&mut self, damage: i16) {
self.fbb_.push_slot::<i16>(Weapon::VT_DAMAGE, damage, 0);
}
#[inline]
pub fn new(_fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>) -> WeaponBuilder<'a, 'b, A> {
let start = _fbb.start_table();
WeaponBuilder {
fbb_: _fbb,
start_: start,
}
}
#[inline]
pub fn finish(self) -> ::flatbuffers::WIPOffset<Weapon<'a>> {
let o = self.fbb_.end_table(self.start_);
::flatbuffers::WIPOffset::new(o.value())
#[inline]
pub fn add_name(&mut self, name: ::flatbuffers::WIPOffset<&'b str>) {
self.fbb_.push_slot_always::<::flatbuffers::WIPOffset<_>>(Weapon::VT_NAME, name);
}
#[inline]
pub fn add_damage(&mut self, damage: i16) {
self.fbb_.push_slot::<i16>(Weapon::VT_DAMAGE, damage, 0);
}
#[inline]
pub fn new(_fbb: &'b mut ::flatbuffers::FlatBufferBuilder<'a, A>) -> WeaponBuilder<'a, 'b, A> {
let start = _fbb.start_table();
WeaponBuilder {
fbb_: _fbb,
start_: start,
}
}
#[inline]
pub fn finish(self) -> ::flatbuffers::WIPOffset<Weapon<'a>> {
let o = self.fbb_.end_table(self.start_);
::flatbuffers::WIPOffset::new(o.value())
}
}
impl ::core::fmt::Debug for Weapon<'_> {
fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result {
let mut ds = f.debug_struct("Weapon");
ds.field("name", &self.name());
ds.field("damage", &self.damage());
ds.finish()
}
fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result {
let mut ds = f.debug_struct("Weapon");
ds.field("name", &self.name());
ds.field("damage", &self.damage());
ds.finish()
}
}
#[non_exhaustive]
#[derive(Debug, Clone, PartialEq)]
pub struct WeaponT {
pub name: Option<alloc::string::String>,
pub damage: i16,
pub name: Option<alloc::string::String>,
pub damage: i16,
}
impl Default for WeaponT {
fn default() -> Self {
Self {
name: None,
damage: 0,
}
fn default() -> Self {
Self {
name: None,
damage: 0,
}
}
}
impl WeaponT {
pub fn pack<'b, A: ::flatbuffers::Allocator + 'b>(
&self,
_fbb: &mut ::flatbuffers::FlatBufferBuilder<'b, A>
) -> ::flatbuffers::WIPOffset<Weapon<'b>> {
let name = self.name.as_ref().map(|x|{
_fbb.create_string(x)
});
let damage = self.damage;
Weapon::create(_fbb, &WeaponArgs{
name,
damage,
})
}
pub fn pack<'b, A: ::flatbuffers::Allocator + 'b>(
&self,
_fbb: &mut ::flatbuffers::FlatBufferBuilder<'b, A>
) -> ::flatbuffers::WIPOffset<Weapon<'b>> {
let name = self.name.as_ref().map(|x|{
_fbb.create_string(x)
});
let damage = self.damage;
Weapon::create(_fbb, &WeaponArgs{
name,
damage,
})
}
}

View File

@@ -383,6 +383,11 @@ flatc(
schema="native_type_test.fbs",
)
flatc(
["--cpp", "--gen-compare", "--gen-mutable", "--gen-object-api", "--reflect-names"],
schema="cpp_vec_type_test.fbs",
)
flatc(
[
"--cpp",
@@ -394,11 +399,6 @@ flatc(
schema="native_inline_table_test.fbs",
)
flatc(
["--cpp", "--gen-compare", "--gen-mutable", "--gen-object-api", "--reflect-names"],
schema="cross_namespace_pack_test.fbs",
)
flatc(
RUST_OPTS,
prefix="arrays_test",
@@ -422,11 +422,6 @@ flatc(
schema="nested_union_test.fbs",
)
flatc(
["--python", "--gen-object-api"],
schema="union_name_test.fbs",
)
flatc(
NO_INCL_OPTS + CPP_OPTS,
schema="default_vectors_strings_test.fbs",
@@ -527,13 +522,6 @@ flatc(
cwd=swift_code_gen,
)
flatc(
SWIFT_OPTS_CODE_GEN + BASE_OPTS,
schema="empty_vtable.fbs",
cwd=swift_code_gen,
prefix="../../Tests/Flatbuffers/",
)
# Swift Wasm Tests
swift_Wasm_prefix = "swift/Wasm.tests/Tests/FlatBuffers.Test.Swift.WasmTests"
flatc(

View File

@@ -20,7 +20,6 @@ from util import flatc, root_path
grpc_examples_path = Path(root_path, "grpc/examples")
greeter_schema = str(Path(grpc_examples_path, "greeter.fbs"))
greeter_schema_v2 = str(Path(grpc_examples_path, "greeter_v2.fbs"))
COMMON_ARGS = [
"--grpc",
@@ -55,8 +54,8 @@ def GenerateGRPCExamples():
"--swift",
"--gen-json-emit",
],
schema=greeter_schema_v2,
cwd=Path(grpc_examples_path, "swift/Greeter/Sources/Models"),
schema=greeter_schema,
cwd=Path(grpc_examples_path, "swift/Greeter/Sources/Model"),
)
flatc(

View File

@@ -126,7 +126,9 @@ static BinarySection GenerateMissingSection(const uint64_t offset,
std::map<uint64_t, BinarySection> BinaryAnnotator::Annotate() {
if (bfbs_ != nullptr && bfbs_length_ != 0) {
flatbuffers::Verifier verifier(bfbs_, static_cast<size_t>(bfbs_length_));
if (!reflection::VerifySchemaBuffer(verifier)) {
if ((is_size_prefixed_ &&
!reflection::VerifySizePrefixedSchemaBuffer(verifier)) ||
!reflection::VerifySchemaBuffer(verifier)) {
return {};
}
}

View File

@@ -142,6 +142,10 @@ const static FlatCOption flatc_options[] = {
"and T::empty() must be supported. The custom type also needs to be "
"constructible from std::string (see the --cpp-str-flex-ctor option to "
"change this behavior)"},
{"", "cpp-vec-type", "T",
"Set object API vector type (default std::vector). T must support the "
"same interface as std::vector: size(), resize(), reserve(), "
"emplace_back(), operator[], begin(), end(), and data()."},
{"", "cpp-str-flex-ctor", "",
"Don't construct custom string types by passing std::string from "
"Flatbuffers, but (char* + length)."},
@@ -543,6 +547,9 @@ FlatCOptions FlatCompiler::ParseFromCommandLineArguments(int argc,
} else if (arg == "--cpp-str-type") {
if (++argi >= argc) Error("missing type following: " + arg, true);
opts.cpp_object_api_string_type = argv[argi];
} else if (arg == "--cpp-vec-type") {
if (++argi >= argc) Error("missing type following: " + arg, true);
opts.cpp_object_api_vector_type = argv[argi];
} else if (arg == "--cpp-str-flex-ctor") {
opts.cpp_object_api_string_flexible_constructor = true;
} else if (arg == "--no-cpp-direct-copy") {

View File

@@ -929,6 +929,15 @@ class CppGenerator : public BaseGenerator {
return ret;
}
const std::string NativeVector(const FieldDef* field) {
auto attr = field ? field->attributes.Lookup("cpp_vec_type") : nullptr;
auto& ret = attr ? attr->constant : opts_.cpp_object_api_vector_type;
if (ret.empty()) {
return "std::vector";
}
return ret;
}
bool FlexibleStringConstructor(const FieldDef* field) {
auto attr = field != nullptr &&
(field->attributes.Lookup("cpp_str_flex_ctor") != nullptr);
@@ -974,20 +983,26 @@ class CppGenerator : public BaseGenerator {
case BASE_TYPE_VECTOR64:
case BASE_TYPE_VECTOR: {
const auto type_name = GenTypeNative(type.VectorType(), true, field);
if (type.struct_def &&
const auto vec_type = NativeVector(&field);
if (vec_type == "std::vector" && type.struct_def &&
type.struct_def->attributes.Lookup("native_custom_alloc")) {
auto native_custom_alloc =
type.struct_def->attributes.Lookup("native_custom_alloc");
return "std::vector<" + type_name + "," +
native_custom_alloc->constant + "<" + type_name + ">>";
} else {
return "std::vector<" + type_name + ">";
}
return vec_type + "<" + type_name + ">";
}
case BASE_TYPE_STRUCT: {
auto type_name = WrapInNameSpace(*type.struct_def);
if (IsStruct(type)) {
auto native_type = type.struct_def->attributes.Lookup("native_type");
// Field-level native_type takes priority over struct-level
// native_type
auto field_native_type = field.attributes.Lookup("native_type");
auto native_type =
field_native_type
? field_native_type
: type.struct_def->attributes.Lookup("native_type");
if (native_type) {
type_name = native_type->constant;
}
@@ -1951,9 +1966,10 @@ class CppGenerator : public BaseGenerator {
field.offset64);
}
if (TypeHasKey(vtype)) {
code_.SetValue("PARAM_TYPE", "std::vector<" + type + "> *");
code_.SetValue("PARAM_TYPE", NativeVector(&field) + "<" + type + "> *");
} else {
code_.SetValue("PARAM_TYPE", "const std::vector<" + type + "> *");
code_.SetValue("PARAM_TYPE",
"const " + NativeVector(&field) + "<" + type + "> *");
}
code_.SetValue("PARAM_VALUE", "nullptr");
} else {
@@ -1979,7 +1995,7 @@ class CppGenerator : public BaseGenerator {
const std::string& full_type =
(cpp_type
? (IsVector(field.value.type)
? "std::vector<" +
? NativeVector(&field) + "<" +
GenTypeNativePtr(cpp_type->constant, &field,
false) +
"> "
@@ -2779,17 +2795,15 @@ class CppGenerator : public BaseGenerator {
get_call += ">(" + offset_str + ");";
code_ += get_call;
} else if (IsString(type) && field.value.constant != "0") {
std::string escaped;
flatbuffers::EscapeString(field.value.constant.c_str(),
field.value.constant.length(), &escaped,
true, false);
// TODO: Add logic to always convert the string to a valid C++ string
// literal by handling string escapes.
code_ += " auto* ptr = {{FIELD_VALUE}};";
code_ += " if (ptr) return ptr;";
code_ += " static const struct { uint32_t len; const char s[" +
NumToString(field.value.constant.length() + 1) +
"]; } bfbs_string = { " +
NumToString(field.value.constant.length()) + ", " +
escaped + " };";
NumToString(field.value.constant.length()) + ", \"" +
field.value.constant + "\" };";
code_ +=
" return reinterpret_cast<const ::flatbuffers::String "
" *>(&bfbs_string);";
@@ -3419,15 +3433,11 @@ class CppGenerator : public BaseGenerator {
code_.SetValue("CREATE_STRING", "CreateSharedString");
}
if (field->value.constant != "0") {
std::string escaped;
flatbuffers::EscapeString(field->value.constant.c_str(),
field->value.constant.length(), &escaped,
true, false);
code_ +=
" auto {{FIELD_NAME}}__ = {{FIELD_NAME}} ? "
"_fbb.{{CREATE_STRING}}({{FIELD_NAME}}) : "
"_fbb.{{CREATE_STRING}}(" +
escaped + ");";
"_fbb.{{CREATE_STRING}}(\"" +
field->value.constant + "\");";
} else {
code_ +=
" auto {{FIELD_NAME}}__ = {{FIELD_NAME}} ? "
@@ -3522,10 +3532,21 @@ class CppGenerator : public BaseGenerator {
case BASE_TYPE_STRUCT: {
if (IsStruct(type)) {
const auto& struct_attrs = type.struct_def->attributes;
const auto native_type = struct_attrs.Lookup("native_type");
// Field-level native_type takes priority over struct-level
// native_type
auto field_native_type = afield.attributes.Lookup("native_type");
const auto native_type = field_native_type
? field_native_type
: struct_attrs.Lookup("native_type");
if (native_type) {
std::string unpack_call = "::flatbuffers::UnPack";
const auto pack_name = struct_attrs.Lookup("native_type_pack_name");
// Field-level native_type_pack_name takes priority over
// struct-level
auto field_pack_name =
afield.attributes.Lookup("native_type_pack_name");
const auto pack_name =
field_pack_name ? field_pack_name
: struct_attrs.Lookup("native_type_pack_name");
if (pack_name) {
unpack_call += pack_name->constant;
}
@@ -3780,7 +3801,8 @@ class CppGenerator : public BaseGenerator {
auto vector_type = field.value.type.VectorType();
switch (vector_type.base_type) {
case BASE_TYPE_STRING: {
if (NativeString(&field) == "std::string") {
if (NativeString(&field) == "std::string" &&
NativeVector(&field) == "std::vector") {
code += "_fbb.CreateVectorOfStrings(" + value + ")";
} else {
// Use by-function serialization to emulate
@@ -3801,39 +3823,59 @@ class CppGenerator : public BaseGenerator {
if (IsStruct(vector_type)) {
const auto& struct_attrs =
field.value.type.struct_def->attributes;
const auto native_type = struct_attrs.Lookup("native_type");
// Field-level native_type takes priority over struct-level
// native_type
auto field_native_type = field.attributes.Lookup("native_type");
const auto native_type = field_native_type
? field_native_type
: struct_attrs.Lookup("native_type");
if (native_type) {
code += "_fbb.CreateVectorOfNativeStructs<";
code += WrapInNameSpace(*vector_type.struct_def) + ", " +
native_type->constant + ">";
code += "(" + value;
// Field-level native_type_pack_name takes priority over
// struct-level
auto field_pack_name =
field.attributes.Lookup("native_type_pack_name");
const auto pack_name =
struct_attrs.Lookup("native_type_pack_name");
field_pack_name
? field_pack_name
: struct_attrs.Lookup("native_type_pack_name");
// Non-std vectors (e.g. eastl::vector) don't match the
// std::vector overload, so use the pointer+size overload.
const bool is_std_vec = NativeVector(&field) == "std::vector";
if (is_std_vec) {
code += "(" + value;
} else {
code += "(" + value + ".data(), " + value + ".size()";
}
if (pack_name) {
code += ", ::flatbuffers::Pack" + pack_name->constant;
}
code += ")";
} else {
// If the field uses 64-bit addressing, create a 64-bit vector.
const bool is_std_vec = NativeVector(&field) == "std::vector";
const std::string vec_args =
is_std_vec ? ("(" + value + ")")
: ("(" + value + ".data(), " + value + ".size())");
if (field.value.type.base_type == BASE_TYPE_VECTOR64) {
code += "_fbb.CreateVectorOfStructs64";
code += "_fbb.CreateVectorOfStructs64" + vec_args;
} else {
code += "_fbb.CreateVectorOfStructs";
if (field.offset64) {
// This is normal 32-bit vector, with 64-bit addressing.
code += "64<::flatbuffers::Vector>";
}
code += vec_args;
}
code += "(" + value + ")";
}
} else {
code += "_fbb.CreateVector<::flatbuffers::Offset<";
code += WrapInNameSpace(*vector_type.struct_def) + ">> ";
code += "(" + value + ".size(), ";
code += "[](size_t i, _VectorArgs *__va) { ";
code += "return " +
WrapInNameSpace(vector_type.struct_def->defined_namespace,
"Create" + vector_type.struct_def->name);
code += "return Create" + vector_type.struct_def->name;
code += "(*__va->__fbb, ";
if (field.native_inline) {
code += "&(__va->_" + value + "[i])";
@@ -3845,7 +3887,12 @@ class CppGenerator : public BaseGenerator {
break;
}
case BASE_TYPE_BOOL: {
code += "_fbb.CreateVector(" + value + ")";
if (NativeVector(&field) == "std::vector") {
code += "_fbb.CreateVector(" + value + ")";
} else {
code += "_fbb.CreateVector(" + value + ".data(), " + value +
".size())";
}
break;
}
case BASE_TYPE_UNION: {
@@ -3894,15 +3941,19 @@ class CppGenerator : public BaseGenerator {
code += "; }, &_va )";
} else {
// If the field uses 64-bit addressing, create a 64-bit vector.
const bool is_std_vec = NativeVector(&field) == "std::vector";
const std::string vec_args =
is_std_vec ? ("(" + value + ")")
: ("(" + value + ".data(), " + value + ".size())");
if (field.value.type.base_type == BASE_TYPE_VECTOR64) {
code += "_fbb.CreateVector64(" + value + ")";
code += "_fbb.CreateVector64" + vec_args;
} else {
code += "_fbb.CreateVector";
if (field.offset64) {
// This is normal 32-bit vector, with 64-bit addressing.
code += "64<::flatbuffers::Vector>";
}
code += "(" + value + ")";
code += vec_args;
}
}
break;
@@ -3926,11 +3977,22 @@ class CppGenerator : public BaseGenerator {
case BASE_TYPE_STRUCT: {
if (IsStruct(field.value.type)) {
const auto& struct_attribs = field.value.type.struct_def->attributes;
const auto native_type = struct_attribs.Lookup("native_type");
// Field-level native_type takes priority over struct-level
// native_type
auto field_native_type = field.attributes.Lookup("native_type");
const auto native_type = field_native_type
? field_native_type
: struct_attribs.Lookup("native_type");
if (native_type && field.native_inline) {
code += "::flatbuffers::Pack";
// Field-level native_type_pack_name takes priority over
// struct-level
auto field_pack_name =
field.attributes.Lookup("native_type_pack_name");
const auto pack_name =
struct_attribs.Lookup("native_type_pack_name");
field_pack_name
? field_pack_name
: struct_attribs.Lookup("native_type_pack_name");
if (pack_name) {
code += pack_name->constant;
}
@@ -3946,10 +4008,8 @@ class CppGenerator : public BaseGenerator {
}
} else {
// _o->field ? CreateT(_fbb, _o->field.get(), _rehasher);
const auto& nested_struct = *field.value.type.struct_def;
code += value + " ? " +
WrapInNameSpace(nested_struct.defined_namespace,
"Create" + nested_struct.name);
const std::string& type = field.value.type.struct_def->name;
code += value + " ? Create" + type;
code += "(_fbb, " + value;
if (!field.native_inline) code += GenPtrGet(field);
code += ", _rehasher) : 0";
@@ -4096,9 +4156,15 @@ class CppGenerator : public BaseGenerator {
bool check_ptr = false;
if (field->value.type.base_type == BASE_TYPE_STRUCT) {
if (IsStruct(field->value.type)) {
// Field-level native_type takes priority over struct-level
// native_type
auto field_native_type =
field->attributes.Lookup("native_type");
auto native_type =
field->value.type.struct_def->attributes.Lookup(
"native_type");
field_native_type
? field_native_type
: field->value.type.struct_def->attributes.Lookup(
"native_type");
auto native_inline = field->attributes.Lookup("native_inline");
if (native_type) {
pass_by_address = true;

View File

@@ -368,17 +368,7 @@ static std::string GenerateFBS(const Parser& parser,
if (field.value.type.base_type != BASE_TYPE_UTYPE) {
GenComment(field.doc_comment, &schema, nullptr, " ");
schema += " " + field.name + ":" + GenType(field.value.type);
if (field.value.constant != "0") {
if (IsString(field.value.type)) {
std::string escaped;
flatbuffers::EscapeString(field.value.constant.c_str(),
field.value.constant.length(), &escaped,
true, false);
schema += " = " + escaped;
} else {
schema += " = " + field.value.constant;
}
}
if (field.value.constant != "0") schema += " = " + field.value.constant;
std::vector<std::string> attributes;
if (field.IsRequired()) attributes.push_back("required");
if (field.key) attributes.push_back("key");

View File

@@ -1528,7 +1528,7 @@ class PythonGenerator : public BaseGenerator {
} else {
code += "def Create" + field_method + "Vector(builder, data):\n";
}
code += Indent + "return " + helper_name + "(builder, data)\n\n";
code += Indent + helper_name + "(builder, data)\n\n";
}
}
@@ -2095,12 +2095,12 @@ class PythonGenerator : public BaseGenerator {
const auto field_method = namer_.Method(field);
const auto struct_var = namer_.Variable(struct_def);
const EnumDef& enum_def = *field.value.type.enum_def;
auto union_fn = namer_.Function(enum_def);
auto union_type = namer_.Type(enum_def);
if (parser_.opts.include_dependence_headers) {
union_fn = namer_.NamespacedType(enum_def) + "." + union_fn;
union_type = namer_.NamespacedType(enum_def) + "." + union_type;
}
code += GenIndents(2) + "self." + field_field + " = " + union_fn +
code += GenIndents(2) + "self." + field_field + " = " + union_type +
"Creator(" + "self." + field_field + "Type, " + struct_var + "." +
field_method + "())";
}
@@ -2471,7 +2471,7 @@ class PythonGenerator : public BaseGenerator {
} else {
GenPackForScalarVectorFieldHelper(struct_def, field, code_prefix_ptr, 3);
code_prefix += "(self." + field_field + "[i])";
code_prefix += GenIndents(3) + field_field + " = builder.EndVector()";
code_prefix += GenIndents(4) + field_field + " = builder.EndVector()";
}
}

File diff suppressed because it is too large Load Diff

View File

@@ -164,14 +164,15 @@ class SwiftGenerator : public BaseGenerator {
bool generate() {
code_.Clear();
code_.SetValue("ACCESS", "_accessor");
code_.SetValue("TABLEOFFSET", "VT");
code_.SetValue("TABLEOFFSET", "VTOFFSET");
code_ += "// " + std::string(FlatBuffersGeneratedWarning());
code_ += "// swiftlint:disable all";
code_ += "// swiftformat:disable all\n";
if (parser_.opts.include_dependence_headers || parser_.opts.generate_all) {
code_.SetValue("IMPLEMENTONLY",
parser_.opts.swift_implementation_only ? "internal " : "");
code_.SetValue("IMPLEMENTONLY", parser_.opts.swift_implementation_only
? "@_implementationOnly "
: "");
code_ += "#if canImport(Common)";
code_ += "{{IMPLEMENTONLY}}import Common";
code_ += "#endif";
@@ -281,16 +282,9 @@ class SwiftGenerator : public BaseGenerator {
NumToString(field.value.type.VectorType().fixed_length);
code_.SetValue("FIXEDLENGTH", fixed_length);
std::string vector_base_type;
if (IsStruct(field.value.type.VectorType())) {
vector_base_type = type + "()";
} else if (IsBool(field.value.type.VectorType().base_type)) {
vector_base_type = "false";
} else if (IsFloat(field.value.type.VectorType().base_type)) {
vector_base_type = "0.0";
} else {
vector_base_type = SwiftConstant(field);
}
const auto vector_base_type = IsStruct(field.value.type.VectorType())
? (type + "()")
: SwiftConstant(field);
code_ += "private var _{{FIELDVAR}}: InlineArray<{{FIXEDLENGTH}}, " +
valueType + ">";
@@ -524,7 +518,7 @@ class SwiftGenerator : public BaseGenerator {
void GenTableAccessors(const StructDef& struct_def) {
// Generate field id constants.
if (struct_def.fields.vec.size() > 0) {
code_ += "private struct {{TABLEOFFSET}} {";
code_ += "private enum {{TABLEOFFSET}}: VOffset {";
Indent();
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
@@ -534,8 +528,10 @@ class SwiftGenerator : public BaseGenerator {
}
code_.SetValue("OFFSET_NAME", namer_.Variable(field));
code_.SetValue("OFFSET_VALUE", NumToString(field.value.offset));
code_ += "static let {{OFFSET_NAME}}: VOffset = {{OFFSET_VALUE}}";
code_ += "case {{OFFSET_NAME}} = {{OFFSET_VALUE}}";
}
code_ += "var v: Int32 { Int32(self.rawValue) }";
code_ += "var p: VOffset { self.rawValue }";
Outdent();
code_ += "}";
code_ += "";
@@ -548,14 +544,13 @@ class SwiftGenerator : public BaseGenerator {
code_.SetValue("SHORT_STRUCTNAME", namer_.Type(struct_def));
code_.SetValue("STRUCTNAME", namer_.NamespacedType(struct_def));
code_.SetValue("OBJECTTYPE", struct_def.fixed ? "Struct" : "Table");
code_.SetValue("PROTOCOL", struct_def.fixed ? "FlatBufferStruct"
: "FlatBufferVerifiableTable");
code_.SetValue("MUTABLE", struct_def.fixed ? Mutable() : "");
GenOSVersionChecks();
code_ +=
"{{ACCESS_TYPE}} struct {{STRUCTNAME}}{{MUTABLE}}: "
"{{PROTOCOL}}, FlatbuffersVectorInitializable\\";
"FlatBuffer{{OBJECTTYPE}}, FlatbuffersVectorInitializable\\";
if (!struct_def.fixed) code_ += ", Verifiable\\";
if (!struct_def.fixed && parser_.opts.generate_object_based_api)
code_ += ", ObjectAPIPacker\\";
code_ += " {\n";
@@ -625,8 +620,7 @@ class SwiftGenerator : public BaseGenerator {
if (should_generate_create) {
code_ += "{{ACCESS_TYPE}} static func create{{SHORT_STRUCTNAME}}(";
Indent();
code_ += "_ fbb: inout FlatBufferBuilder\\";
if (create_func_header.empty() == false) code_ += ",";
code_ += "_ fbb: inout FlatBufferBuilder,";
for (auto it = create_func_header.begin(); it < create_func_header.end();
++it) {
code_ += *it + "\\";
@@ -705,7 +699,7 @@ class SwiftGenerator : public BaseGenerator {
code_ += field.IsOptional() ? (optional_enum + "\\")
: (is_enum + ", def: {{CONSTANT}}\\");
code_ += ", at: {{TABLEOFFSET}}.{{OFFSET}}) }";
code_ += ", at: {{TABLEOFFSET}}.{{OFFSET}}.p) }";
const auto default_value =
IsEnum(field.value.type)
@@ -725,7 +719,7 @@ class SwiftGenerator : public BaseGenerator {
code_ +=
"{{VALUETYPE}}" + builder_string + "fbb.add(element: {{FIELDVAR}},\\";
code_ += field.IsOptional() ? "\\" : " def: {{CONSTANT}},";
code_ += " at: {{TABLEOFFSET}}.{{OFFSET}}) }";
code_ += " at: {{TABLEOFFSET}}.{{OFFSET}}.p) }";
create_func_header.push_back(
field_var + ": " + nullable_type + " = " +
(field.IsOptional() ? "nil" : default_value));
@@ -736,7 +730,7 @@ class SwiftGenerator : public BaseGenerator {
const auto create_struct =
"guard let {{FIELDVAR}} = {{FIELDVAR}} else { return };"
" fbb.create(struct: {{FIELDVAR}}, position: "
"{{TABLEOFFSET}}.{{OFFSET}}) }";
"{{TABLEOFFSET}}.{{OFFSET}}.p) }";
code_ += type + "?" + builder_string + create_struct;
/// Optional hard coded since structs are always optional
create_func_header.push_back(field_var + ": " + type +
@@ -753,9 +747,8 @@ class SwiftGenerator : public BaseGenerator {
(field.IsRequired() ? "" : " = Offset()"));
const auto reader_type =
IsStruct(field.value.type) && field.value.type.struct_def->fixed
? "structOffset: {{TABLEOFFSET}}.{{OFFSET}}) }"
: "offset: {{FIELDVAR}}, at: {{TABLEOFFSET}}.{{OFFSET}}) "
"}";
? "structOffset: {{TABLEOFFSET}}.{{OFFSET}}.p) }"
: "offset: {{FIELDVAR}}, at: {{TABLEOFFSET}}.{{OFFSET}}.p) }";
code_ += "Offset" + builder_string + "fbb.add(" + reader_type;
const auto vectortype = field.value.type.VectorType();
@@ -859,10 +852,7 @@ class SwiftGenerator : public BaseGenerator {
break;
case BASE_TYPE_STRING: {
const auto sc = SwiftConstant(field);
std::string default_string;
flatbuffers::EscapeString(sc.c_str(), sc.length(), &default_string,
true, false);
const auto default_string = "\"" + SwiftConstant(field) + "\"";
code_.SetValue("VALUETYPE", GenType(field.value.type));
code_.SetValue("CONSTANT", field.IsDefault() ? default_string : "nil");
code_ += GenReaderMainBody(is_required) + GenOffset() +
@@ -870,7 +860,7 @@ class SwiftGenerator : public BaseGenerator {
code_ += "{{ACCESS_TYPE}} var {{FIELDVAR}}SegmentArray: [UInt8]" +
is_required +
" { return "
"{{ACCESS}}.getVector(at: {{TABLEOFFSET}}.{{OFFSET}}) }";
"{{ACCESS}}.getVector(at: {{TABLEOFFSET}}.{{OFFSET}}.v) }";
break;
}
case BASE_TYPE_ARRAY:
@@ -904,7 +894,7 @@ class SwiftGenerator : public BaseGenerator {
code_ +=
"{{ACCESS_TYPE}} var {{FIELDVAR}}: "
"FlatbufferVector<{{VALUETYPE}}> "
"{ return {{ACCESS}}.vector(at: {{TABLEOFFSET}}.{{OFFSET}}, "
"{ return {{ACCESS}}.vector(at: {{TABLEOFFSET}}.{{OFFSET}}.v, "
"byteSize: {{SIZE}}) }";
}
@@ -921,7 +911,7 @@ class SwiftGenerator : public BaseGenerator {
code_ +=
"{{ACCESS_TYPE}} var {{FIELDVAR}}: "
"FlatbufferVector<{{VALUETYPE}}_Mutable> "
"{ return {{ACCESS}}.vector(at: {{TABLEOFFSET}}.{{OFFSET}}, "
"{ return {{ACCESS}}.vector(at: {{TABLEOFFSET}}.{{OFFSET}}.v, "
"byteSize: {{SIZE}}) }";
GenUnsafeBufferPointer(field);
return;
@@ -930,8 +920,7 @@ class SwiftGenerator : public BaseGenerator {
if (vectortype.base_type == BASE_TYPE_UNION) {
code_ +=
"{{ACCESS_TYPE}} var {{FIELDVAR}}: UnionFlatbufferVector "
"{ return {{ACCESS}}.unionVector(at: "
"{{TABLEOFFSET}}.{{OFFSET}}, "
"{ return {{ACCESS}}.unionVector(at: {{TABLEOFFSET}}.{{OFFSET}}.v, "
"byteSize: {{SIZE}}) }";
code_ +=
"{{ACCESS_TYPE}} func {{FIELDVAR}}<T: FlatbuffersInitializable>(at "
@@ -965,21 +954,24 @@ class SwiftGenerator : public BaseGenerator {
"{{ACCESS_TYPE}} func {{functionName}}<T>(_ body: "
"(UnsafeRawBufferPointer, Int) throws -> T) rethrows -> T? { return "
"try "
"{{ACCESS}}.withUnsafePointerToSlice(at: "
"{{TABLEOFFSET}}.{{OFFSET}}, "
"{{ACCESS}}.withUnsafePointerToSlice(at: {{TABLEOFFSET}}.{{OFFSET}}.v, "
"body: body) }";
}
std::vector<std::string> GenerateCodingKeys(const StructDef& struct_def) {
std::vector<std::string> coding_keys;
void GenerateCodingKeys(const StructDef& struct_def) {
code_ += "enum CodingKeys: String, CodingKey {";
Indent();
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
const auto& field = **it;
if (field.deprecated) continue;
coding_keys.push_back("case " + namer_.Variable(field) + " = \"" +
field.name + "\"");
code_.SetValue("RAWVALUENAME", field.name);
code_.SetValue("FIELDVAR", namer_.Variable(field));
code_ += "case {{FIELDVAR}} = \"{{RAWVALUENAME}}\"";
}
return coding_keys;
Outdent();
code_ += "}";
}
void GenerateEncoderUnionBody(const FieldDef& field) {
@@ -1101,31 +1093,14 @@ class SwiftGenerator : public BaseGenerator {
GenOSVersionChecks();
code_ += "extension {{STRUCTNAME}}: Encodable {";
Indent();
auto coding_keys = GenerateCodingKeys(struct_def);
if (coding_keys.empty() == false) {
code_ += "enum CodingKeys: String, CodingKey {";
Indent();
for (auto it = coding_keys.begin(); it != coding_keys.end(); ++it) {
const auto& field = *it;
code_ += field;
}
Outdent();
code_ += "}";
code_ += "";
}
code_ += "";
if (struct_def.fields.vec.empty() == false) GenerateCodingKeys(struct_def);
code_ += "{{ACCESS_TYPE}} func encode(to encoder: Encoder) throws {";
if (coding_keys.empty() == false) {
Indent();
GenerateEncoderBody(struct_def);
Outdent();
}
Indent();
if (struct_def.fields.vec.empty() == false) GenerateEncoderBody(struct_def);
Outdent();
code_ += "}";
Outdent();
code_ += "}";
code_ += "";
@@ -1155,7 +1130,7 @@ class SwiftGenerator : public BaseGenerator {
}
code_ +=
"try _v.visit(field: {{TABLEOFFSET}}.{{OFFSET}}, fieldName: "
"try _v.visit(field: {{TABLEOFFSET}}.{{OFFSET}}.p, fieldName: "
"\"{{FIELDVAR}}\", required: {{ISREQUIRED}}, type: "
"{{VALUETYPE}}.self)";
}
@@ -1175,9 +1150,8 @@ class SwiftGenerator : public BaseGenerator {
code_.SetValue("VALUETYPE", namer_.NamespacedType(union_def));
code_.SetValue("FUNCTION_NAME", is_vector ? "visitUnionVector" : "visit");
code_ +=
"try _v.{{FUNCTION_NAME}}(unionKey: "
"{{TABLEOFFSET}}.{{OFFSET}}Type, "
"unionField: {{TABLEOFFSET}}.{{OFFSET}}, unionKeyName: "
"try _v.{{FUNCTION_NAME}}(unionKey: {{TABLEOFFSET}}.{{OFFSET}}Type.p, "
"unionField: {{TABLEOFFSET}}.{{OFFSET}}.p, unionKeyName: "
"\"{{FIELDVAR}}Type\", fieldName: \"{{FIELDVAR}}\", required: "
"{{ISREQUIRED}}, completion: { (verifier, key: {{VALUETYPE}}, pos) in";
Indent();
@@ -1652,23 +1626,15 @@ class SwiftGenerator : public BaseGenerator {
buffer_constructor.push_back(field_var + " = _t." + field_field);
if (field.IsRequired()) {
std::string default_value;
if (field.IsDefault()) {
const auto sc = SwiftConstant(field);
flatbuffers::EscapeString(sc.c_str(), sc.length(), &default_value,
true, false);
} else {
default_value = "\"\"";
}
base_constructor.push_back(field_var + " = " + default_value);
std::string default_value =
field.IsDefault() ? SwiftConstant(field) : "";
base_constructor.push_back(field_var + " = \"" + default_value +
"\"");
break;
}
if (field.IsDefault() && !field.IsRequired()) {
const auto sc = SwiftConstant(field);
std::string value;
flatbuffers::EscapeString(sc.c_str(), sc.length(), &value,
true, false);
base_constructor.push_back(field_var + " = " + value);
std::string value = field.IsDefault() ? SwiftConstant(field) : "nil";
base_constructor.push_back(field_var + " = \"" + value + "\"");
}
break;
}
@@ -1927,7 +1893,7 @@ class SwiftGenerator : public BaseGenerator {
}
std::string GenOffset() {
return "let o = {{ACCESS}}.offset({{TABLEOFFSET}}.{{OFFSET}}); ";
return "let o = {{ACCESS}}.offset({{TABLEOFFSET}}.{{OFFSET}}.v); ";
}
std::string GenReaderMainBody(const std::string& optional = "") {

View File

@@ -324,10 +324,9 @@ class TsGenerator : public BaseGenerator {
export_counter++;
}
if (export_counter > 0) {
if (export_counter > 0)
parser_.opts.file_saver->SaveFile(it.second.filepath.c_str(), code,
false);
}
}
}
@@ -522,20 +521,7 @@ class TsGenerator : public BaseGenerator {
case BASE_TYPE_BOOL:
return value.constant == "0" ? "false" : "true";
case BASE_TYPE_STRING: {
// NOTE: Strings without a default value are parsed as "0" by
// the parser, so therefore we have to treat "0" as a null-signifying
// value.
if (value.constant == "0" || value.constant == "null") {
return "null";
} else {
std::string escaped;
flatbuffers::EscapeString(value.constant.c_str(),
value.constant.length(), &escaped,
true, false);
return escaped;
}
}
case BASE_TYPE_STRING:
case BASE_TYPE_UNION:
case BASE_TYPE_STRUCT: {
return null_keyword_;
@@ -661,8 +647,7 @@ class TsGenerator : public BaseGenerator {
}
void GenStructArgs(import_set& imports, const StructDef& struct_def,
const Definition& owner, std::string* arguments,
const std::string& nameprefix) {
std::string* arguments, const std::string& nameprefix) {
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto& field = **it;
@@ -670,11 +655,11 @@ class TsGenerator : public BaseGenerator {
// Generate arguments for a struct inside a struct. To ensure names
// don't clash, and to make it obvious these arguments are constructing
// a nested struct, prefix the name with the field name.
GenStructArgs(imports, *field.value.type.struct_def, owner, arguments,
GenStructArgs(imports, *field.value.type.struct_def, arguments,
nameprefix + field.name + "_");
} else {
*arguments += ", " + nameprefix + field.name + ": " +
GenTypeName(imports, owner, field.value.type, true,
GenTypeName(imports, field, field.value.type, true,
field.IsOptional());
}
}
@@ -936,48 +921,6 @@ class TsGenerator : public BaseGenerator {
return symbols_expression;
}
std::vector<std::string> PathComponents(const std::string& path) const {
std::vector<std::string> components;
size_t start = 0;
while (start < path.size()) {
auto end = path.find(kPathSeparator, start);
if (end == std::string::npos) end = path.size();
if (end > start) {
components.emplace_back(path.substr(start, end - start));
}
if (end == path.size()) break;
start = end + 1;
}
return components;
}
std::string RelativeDirectory(const std::vector<std::string>& from,
const std::vector<std::string>& to) const {
size_t common = 0;
while (common < from.size() && common < to.size() &&
from[common] == to[common]) {
++common;
}
std::string rel;
const size_t ups = from.size() - common;
if (ups == 0) {
rel = ".";
} else {
for (size_t i = 0; i < ups; ++i) {
if (!rel.empty()) rel += kPathSeparator;
rel += "..";
}
}
for (size_t i = common; i < to.size(); ++i) {
if (!rel.empty()) rel += kPathSeparator;
rel += to[i];
}
return rel;
}
template <typename DefinitionT>
ImportDefinition AddImport(import_set& imports, const Definition& dependent,
const DefinitionT& dependency) {
@@ -1005,32 +948,26 @@ class TsGenerator : public BaseGenerator {
const std::string symbols_expression = GenSymbolExpression(
dependency, has_name_clash, import_name, name, object_name);
const Namespace* dependent_ns = dependent.defined_namespace
? dependent.defined_namespace
: parser_.empty_namespace_;
const Namespace* dependency_ns = dependency.defined_namespace
? dependency.defined_namespace
: parser_.empty_namespace_;
std::string bare_file_path;
std::string rel_file_path;
if (dependent.defined_namespace) {
const auto& dep_comps = dependent.defined_namespace->components;
for (size_t i = 0; i < dep_comps.size(); i++) {
rel_file_path += i == 0 ? ".." : (kPathSeparator + std::string(".."));
}
if (dep_comps.size() == 0) {
rel_file_path += ".";
}
} else {
rel_file_path += "..";
}
const std::string dependent_dirs =
namer_.Directories(*dependent_ns, SkipDir::OutputPath);
const std::string dependency_dirs =
namer_.Directories(*dependency_ns, SkipDir::OutputPath);
const auto dependent_components = PathComponents(dependent_dirs);
const auto dependency_components = PathComponents(dependency_dirs);
std::string rel_dir =
RelativeDirectory(dependent_components, dependency_components);
if (rel_dir.empty()) rel_dir = ".";
if (!rel_dir.empty()) rel_dir += kPathSeparator;
std::string rel_file_path =
rel_dir + namer_.File(dependency, SkipFile::SuffixAndExtension);
std::string bare_file_path =
kPathSeparator + dependency_dirs +
bare_file_path +=
kPathSeparator +
namer_.Directories(dependency.defined_namespace->components,
SkipDir::OutputPath) +
namer_.File(dependency, SkipFile::SuffixAndExtension);
rel_file_path += bare_file_path;
ImportDefinition import;
import.name = name;
@@ -1235,10 +1172,9 @@ class TsGenerator : public BaseGenerator {
std::string GenNullCheckConditional(const std::string& nullCheckVar,
const std::string& trueVal,
const std::string& falseVal = "") {
std::string false_val = falseVal.empty() ? null_keyword_ : falseVal;
const std::string& falseVal) {
return "(" + nullCheckVar + " !== " + null_keyword_ + " ? " + trueVal +
" : " + false_val + ")";
" : " + falseVal + ")";
}
std::string GenStructMemberValueTS(const StructDef& struct_def,
@@ -1347,9 +1283,10 @@ class TsGenerator : public BaseGenerator {
// Emit a scalar field
const auto is_string = IsString(field.value.type);
if (IsScalar(field.value.type.base_type) || is_string) {
field_type +=
GenTypeName(imports, field, field.value.type, false,
!HasDefaultValue(field) || HasNullDefault(field));
const auto has_null_default = is_string || HasNullDefault(field);
field_type += GenTypeName(imports, field, field.value.type, false,
has_null_default);
field_val = "this." + namer_.Method(field) + "()";
if (field.value.type.base_type != BASE_TYPE_STRING) {
@@ -1695,12 +1632,11 @@ class TsGenerator : public BaseGenerator {
GenDocComment(struct_def.doc_comment, code_ptr);
code += "export class ";
code += object_name;
if (parser.opts.generate_object_based_api) {
if (parser.opts.generate_object_based_api)
code += " implements flatbuffers.IUnpackableObject<" + object_api_name +
"> {\n";
} else {
else
code += " {\n";
}
code += " bb: flatbuffers.ByteBuffer|" + null_keyword_ + " = " +
null_keyword_ + ";\n";
code += " bb_pos = 0;\n";
@@ -1743,22 +1679,21 @@ class TsGenerator : public BaseGenerator {
offset_prefix = " const offset = " + GenBBAccess() +
".__offset(this.bb_pos, " +
NumToString(field.value.offset) + ");\n";
offset_prefix += " return ";
offset_prefix += " return offset ? ";
}
// Emit a scalar field
const auto is_string = IsString(field.value.type);
if (IsScalar(field.value.type.base_type) || is_string) {
const auto has_null_default =
!field.IsRequired() && !HasDefaultValue(field);
const auto has_null_default = is_string || HasNullDefault(field);
GenDocComment(field.doc_comment, code_ptr);
std::string prefix = namer_.Method(field) + "(";
if (is_string) {
code += prefix + "):" + (has_null_default ? "string|" + null_keyword_ : "string") + "\n";
code += prefix + "):string|" + null_keyword_ + "\n";
code +=
prefix + "optionalEncoding:flatbuffers.Encoding" + "):" +
GenTypeName(imports, struct_def, field.value.type, false, has_null_default) +
GenTypeName(imports, struct_def, field.value.type, false, true) +
"\n";
code += prefix + "optionalEncoding?:any";
} else {
@@ -1787,16 +1722,9 @@ class TsGenerator : public BaseGenerator {
if (is_string) {
index += ", optionalEncoding";
}
if (field.IsRequired()) {
code +=
offset_prefix + GenGetter(field.value.type, "(" + index + ")");
;
} else {
code += offset_prefix + "offset ? " +
GenGetter(field.value.type, "(" + index + ")");
}
if (field.value.type.base_type != BASE_TYPE_ARRAY &&
!field.IsRequired()) {
code +=
offset_prefix + GenGetter(field.value.type, "(" + index + ")");
if (field.value.type.base_type != BASE_TYPE_ARRAY) {
code += " : " + GenDefaultValue(field, imports);
}
code += ";\n";
@@ -1821,8 +1749,8 @@ class TsGenerator : public BaseGenerator {
code +=
MaybeAdd(field.value.offset) + ", " + GenBBAccess() + ");\n";
} else {
code += offset_prefix + "offset ? (obj || " +
GenerateNewExpression(type) + ").__init(";
code += offset_prefix + "(obj || " + GenerateNewExpression(type) +
").__init(";
code += field.value.type.struct_def->fixed
? "this.bb_pos + offset"
: GenBBAccess() + ".__indirect(this.bb_pos + offset)";
@@ -1980,7 +1908,7 @@ class TsGenerator : public BaseGenerator {
code += "):" + vectortypename + "|" + null_keyword_ + " {\n";
if (vectortype.base_type == BASE_TYPE_STRUCT) {
code += offset_prefix + "offset ? (obj || " +
code += offset_prefix + "(obj || " +
GenerateNewExpression(vectortypename);
code += ").__init(";
code += vectortype.struct_def->fixed
@@ -1993,8 +1921,7 @@ class TsGenerator : public BaseGenerator {
} else if (IsString(vectortype)) {
index += ", optionalEncoding";
}
code += offset_prefix + "offset ? " +
GenGetter(vectortype, "(" + index + ")");
code += offset_prefix + GenGetter(vectortype, "(" + index + ")");
}
code += " : ";
if (field.value.type.element == BASE_TYPE_BOOL) {
@@ -2026,7 +1953,7 @@ class TsGenerator : public BaseGenerator {
" "
"{\n";
code += offset_prefix + "offset ? " +
code += offset_prefix +
GenGetter(field.value.type, "(obj, this.bb_pos + offset)") +
" : " + null_keyword_ + ";\n";
break;
@@ -2079,7 +2006,7 @@ class TsGenerator : public BaseGenerator {
// Emit a length helper
GenDocComment(code_ptr);
code += namer_.Method(field, "Length");
code += "():number {\n" + offset_prefix + "offset ? ";
code += "():number {\n" + offset_prefix;
code +=
GenBBAccess() + ".__vector_len(this.bb_pos + offset) : 0;\n}\n\n";
@@ -2090,30 +2017,15 @@ class TsGenerator : public BaseGenerator {
GenDocComment(code_ptr);
code += namer_.Method(field, "Array");
code += "():" + GenType(vectorType) + "Array|" + null_keyword_ +
" {\n" + offset_prefix;
std::string return_type =
(field.IsRequired() || HasDefaultValue(field))
? "Array"
: ("Array|" + null_keyword_);
if (field.IsRequired()) {
code += "():" + GenType(vectorType) + return_type + " {\n" +
offset_prefix + "new " + GenType(vectorType) + "Array(" +
GenBBAccess() + ".bytes().buffer, " + GenBBAccess() +
".bytes().byteOffset + " + GenBBAccess() +
".__vector(this.bb_pos + offset), " + GenBBAccess() +
".__vector_len(this.bb_pos + offset));\n}\n\n";
} else {
std::string value = HasDefaultValue(field)
? "new " + GenType(vectorType) + "Array()"
: "null";
code += "():" + GenType(vectorType) + return_type + " {\n" +
offset_prefix + "offset ? new " + GenType(vectorType) +
"Array(" + GenBBAccess() + ".bytes().buffer, " +
GenBBAccess() + ".bytes().byteOffset + " + GenBBAccess() +
".__vector(this.bb_pos + offset), " + GenBBAccess() +
".__vector_len(this.bb_pos + offset)) : " + value +
";\n}\n\n";
}
code += "new " + GenType(vectorType) + "Array(" + GenBBAccess() +
".bytes().buffer, " + GenBBAccess() +
".bytes().byteOffset + " + GenBBAccess() +
".__vector(this.bb_pos + offset), " + GenBBAccess() +
".__vector_len(this.bb_pos + offset)) : " + null_keyword_ +
";\n}\n\n";
}
}
}
@@ -2142,7 +2054,7 @@ class TsGenerator : public BaseGenerator {
// Emit a factory constructor
if (struct_def.fixed) {
std::string arguments;
GenStructArgs(imports, struct_def, struct_def, &arguments, "");
GenStructArgs(imports, struct_def, &arguments, "");
GenDocComment(code_ptr);
code += "static create" + GetPrefixedName(struct_def) +
@@ -2344,34 +2256,6 @@ class TsGenerator : public BaseGenerator {
return field.IsOptional() && field.value.constant == "null";
}
static bool HasDefaultValue(const FieldDef& field) {
switch (field.value.type.base_type) {
// These types can't have defaults
case BASE_TYPE_UNION:
case BASE_TYPE_STRUCT: {
return false;
}
// Arrays always have a default (empty array)
case BASE_TYPE_ARRAY:
return true;
// The only supported default for vectors is []
case BASE_TYPE_VECTOR:
return field.value.constant == "[]";
// Even strings are presumed to be null-default if the default value is
// "0", this is intended behavior.
case BASE_TYPE_STRING: {
return field.value.constant != "0" && field.value.constant != "null";
}
default: {
return field.value.constant != "null";
}
}
}
std::string GetArgType(import_set& imports, const Definition& owner,
const FieldDef& field, bool allowNull) {
return GenTypeName(imports, owner, field.value.type, true,

View File

@@ -2809,8 +2809,7 @@ bool Parser::SupportsOptionalScalars() const {
bool Parser::SupportsDefaultVectorsAndStrings() const {
static FLATBUFFERS_CONSTEXPR unsigned long supported_langs =
IDLOptions::kRust | IDLOptions::kSwift | IDLOptions::kNim |
IDLOptions::kCpp | IDLOptions::kBinary | IDLOptions::kJson |
IDLOptions::kTs;
IDLOptions::kCpp | IDLOptions::kBinary | IDLOptions::kJson;
return !(opts.lang_to_generate & ~supported_langs);
}
@@ -3172,10 +3171,8 @@ CheckedError Parser::ParseProtoFields(StructDef* struct_def, bool isextend,
return Error("Protobuf has non positive number in reserved ids");
if (range) {
for (uint32_t id = static_cast<uint32_t>(from) + 1;
id <= static_cast<uint32_t>(attribute); id++) {
struct_def->reserved_ids.push_back(static_cast<voffset_t>(id));
}
for (voffset_t id = from + 1; id <= attribute; id++)
struct_def->reserved_ids.push_back(id);
range = false;
} else {
@@ -4132,15 +4129,7 @@ bool StructDef::Deserialize(Parser& parser, const reflection::Object* object) {
sortbysize = attributes.Lookup("original_order") == nullptr && !fixed;
const auto& of = *(object->fields());
auto indexes = std::vector<uoffset_t>(of.size());
for (uoffset_t i = 0; i < of.size(); i++) {
uint16_t field_id = of.Get(i)->id();
if (field_id >= of.size()) {
parser.error_ = "Field ID " + std::to_string(field_id) +
" exceeds field count " + std::to_string(of.size());
return false;
}
indexes[field_id] = i;
}
for (uoffset_t i = 0; i < of.size(); i++) indexes[of.Get(i)->id()] = i;
size_t tmp_struct_size = 0;
for (size_t i = 0; i < indexes.size(); i++) {
auto field = of.Get(indexes[i]);

View File

@@ -389,7 +389,7 @@ void ForAllFields(const reflection::Object* object, bool reverse,
for (size_t i = 0; i < field_to_id_map.size(); ++i) {
func(object->fields()->Get(
field_to_id_map[reverse ? field_to_id_map.size() - (i + 1) : i]));
field_to_id_map[reverse ? field_to_id_map.size() - i + 1 : i]));
}
}
@@ -641,10 +641,7 @@ const uint8_t* AddFlatBuffer(std::vector<uint8_t>& flatbuf,
const uint8_t* newbuf, size_t newlen) {
// Align to sizeof(uoffset_t) past sizeof(largest_scalar_t) since we're
// going to chop off the root offset.
if (!newbuf || newlen < sizeof(uoffset_t)) return nullptr;
FLATBUFFERS_ASSERT(newlen >= sizeof(uoffset_t));
auto root = ReadScalar<uoffset_t>(newbuf);
if (root < sizeof(uoffset_t) || root >= newlen) return nullptr;
while ((flatbuf.size() & (sizeof(uoffset_t) - 1)) ||
!(flatbuf.size() & (sizeof(largest_scalar_t) - 1))) {
flatbuf.push_back(0);
@@ -652,7 +649,7 @@ const uint8_t* AddFlatBuffer(std::vector<uint8_t>& flatbuf,
auto insertion_point = static_cast<uoffset_t>(flatbuf.size());
// Insert the entire FlatBuffer minus the root pointer.
flatbuf.insert(flatbuf.end(), newbuf + sizeof(uoffset_t), newbuf + newlen);
auto root_offset = root - sizeof(uoffset_t);
auto root_offset = ReadScalar<uoffset_t>(newbuf) - sizeof(uoffset_t);
return flatbuf.data() + insertion_point + root_offset;
}

View File

@@ -20,7 +20,7 @@ import Foundation
/// it allows users to write and read data directly from memory thus the use of its
/// functions should be used
@frozen
public struct ByteBuffer: @unchecked Sendable {
public struct ByteBuffer {
/// Storage is a container that would hold the memory pointer to solve the issue of
/// deallocating the memory that was held by (memory: UnsafeMutableRawPointer)
@@ -30,7 +30,7 @@ public struct ByteBuffer: @unchecked Sendable {
enum Blob {
#if !os(WASI)
case data(Data)
case bytes(any ContiguousBytes)
case bytes(ContiguousBytes)
#endif
case byteBuffer(_InternalByteBuffer)

View File

@@ -23,7 +23,7 @@ import Common
/// Enum is a protocol that all flatbuffers enums should conform to
/// Since it allows us to get the actual `ByteSize` and `Value` from
/// a swift enum.
public protocol Enum: Sendable {
public protocol Enum {
/// associatedtype that the type of the enum should conform to
associatedtype T: Scalar & Verifiable
/// Size of the current associatedtype in the enum

View File

@@ -45,7 +45,7 @@ public struct FlatBufferBuilder {
/// Dictonary that stores a map of all the strings that were written to the buffer
private var stringOffsetMap: [String: Offset] = [:]
/// A check to see if finish(::) was ever called to retreive data object
private(set) var finished = false
private var finished = false
/// A check to see if the buffer should serialize Default values
private var serializeDefaults: Bool
@@ -488,7 +488,7 @@ public struct FlatBufferBuilder {
///
/// - Parameter bytes: bytes to be written into the buffer
/// - Returns: ``Offset`` of the vector
mutating public func createVector(bytes: any ContiguousBytes) -> Offset {
mutating public func createVector(bytes: ContiguousBytes) -> Offset {
bytes.withUnsafeBytes {
startVector($0.count, elementSize: MemoryLayout<UInt8>.size)
_bb.push(bytes: $0)

View File

@@ -20,8 +20,6 @@ import Foundation
/// since now we will be serializing native structs into the buffer.
public protocol NativeStruct {}
public protocol FlatBufferVerifiableNativeStruct: NativeStruct, Verifiable {}
/// FlatbuffersInitializable is a protocol that allows any object to be
/// Initialized from a ByteBuffer
public protocol FlatbuffersInitializable {
@@ -37,8 +35,6 @@ public protocol FlatBufferTable: FlatbuffersInitializable,
var __buffer: ByteBuffer! { get }
}
public protocol FlatBufferVerifiableTable: FlatBufferTable, Verifiable {}
/// FlatbufferStruct structures all the Flatbuffers structs
public protocol FlatBufferStruct: FlatbuffersInitializable,
FlatbuffersVectorInitializable

View File

@@ -16,52 +16,50 @@
import Foundation
enum FlatbuffersGRPCError: Error {
case finishedNotCalledOnBuilder
}
/// FlatBufferGRPCMessage protocol that should allow us to invoke
/// initializers directly from the GRPC generated code
public protocol FlatBufferGRPCMessage {
/// Size of readable bytes in the buffer
var size: Int { get }
public protocol GRPCVerifiableMessage<Message> {
associatedtype Message
init(pointer: UnsafeRawBufferPointer)
init(byteBuffer: ByteBuffer)
func decode() throws -> Message
func withUnsafeReadableBytes<Data>(
@discardableResult
@inline(__always)
func withUnsafeReadableBytes<T>(
_ body: (UnsafeRawBufferPointer) throws
-> Data) rethrows -> Data
-> T) rethrows -> T
}
public struct GRPCMessage<
Table: FlatBufferVerifiableTable
>: Sendable, GRPCVerifiableMessage {
public typealias Message = Table
/// Message is a wrapper around Buffers to to able to send Flatbuffers `Buffers` through the
/// GRPC library
public struct Message<T: FlatBufferTable>: FlatBufferGRPCMessage {
internal var buffer: ByteBuffer
private let buffer: ByteBuffer
/// Returns the an object of type T that would be read from the buffer
public var object: T {
T.init(
buffer,
o: Int32(buffer.read(def: UOffset.self, position: buffer.reader)) &+
Int32(buffer.reader))
}
public var size: Int { Int(buffer.size) }
public init(pointer: UnsafeRawBufferPointer) {
buffer = ByteBuffer(
copyingMemoryBound: pointer.baseAddress!,
capacity: pointer.count)
}
public init(builder: inout FlatBufferBuilder) throws {
guard builder.finished else {
throw FlatbuffersGRPCError.finishedNotCalledOnBuilder
}
buffer = builder.sizedBuffer
}
/// Initializes the message with the type Flatbuffer.Bytebuffer that is transmitted over
/// GRPC
/// - Parameter byteBuffer: Flatbuffer ByteBuffer object
public init(byteBuffer: ByteBuffer) {
buffer = byteBuffer
}
public func decode() throws -> Table {
var buf = buffer
return try getCheckedRoot(byteBuffer: &buf)
/// Initializes the message by copying the buffer to the message to be sent.
/// from the builder
/// - Parameter builder: FlatbufferBuilder that has the bytes created in
/// - Note: Use `builder.finish(offset)` before passing the builder without prefixing anything to it
public init(builder: inout FlatBufferBuilder) {
buffer = builder.sizedBuffer
builder.clear()
}
@discardableResult
@@ -75,30 +73,3 @@ public struct GRPCMessage<
}
}
}
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
public struct FlatBuffersMessageSerializer<
Message: GRPCVerifiableMessage
>: Sendable {
public init() {}
public func serialize<Data>(
message: Message,
_ completion: (UnsafeRawBufferPointer) throws -> Data) throws -> Data
{
return try message.withUnsafeReadableBytes {
try completion($0)
}
}
}
@available(macOS 15.0, iOS 18.0, watchOS 11.0, tvOS 18.0, visionOS 2.0, *)
public struct FlatBuffersMessageDeserializer<
Message: GRPCVerifiableMessage
>: Sendable {
public init() {}
public func deserialize(pointer: UnsafeRawBufferPointer) throws -> Message {
Message.init(pointer: pointer)
}
}

View File

@@ -49,7 +49,7 @@ public struct Table {
/// the vtable
/// - Parameter o: current offset
/// - Returns: offset of field within buffer
public func offset(_ o: VOffset) -> Int32 {
public func offset(_ o: Int32) -> Int32 {
let vtable = position &- bb.read(def: Int32.self, position: Int(position))
return o
< bb
@@ -57,7 +57,7 @@ public struct Table {
? Int32(
bb.read(
def: Int16.self,
position: Int(vtable &+ Int32(o)))) : 0
position: Int(vtable &+ o))) : 0
}
/// Gets the indirect offset of the current stored object
@@ -106,13 +106,13 @@ public struct Table {
/// This should only be used by `Scalars`
/// - Parameter off: Readable offset
/// - Returns: Returns a vector of type [T]
public func getVector<T>(at off: VOffset) -> [T]? {
public func getVector<T>(at off: Int32) -> [T]? {
let o = offset(off)
guard o != 0 else { return nil }
return bb.readSlice(index: Int(vector(at: o)), count: Int(vector(count: o)))
}
public func vector<T>(at off: VOffset, byteSize: Int) -> FlatbufferVector<T> {
public func vector<T>(at off: Int32, byteSize: Int) -> FlatbufferVector<T> {
let off = offset(off)
return FlatbufferVector(
bb: bb,
@@ -122,7 +122,7 @@ public struct Table {
}
public func unionVector(
at off: VOffset,
at off: Int32,
byteSize: Int) -> UnionFlatbufferVector
{
let off = offset(off)
@@ -146,7 +146,7 @@ public struct Table {
/// - Returns: Returns a pointer to the underlying data
@inline(__always)
public func withUnsafePointerToSlice<T>(
at off: VOffset,
at off: Int32,
body: (UnsafeRawBufferPointer, Int) throws -> T) rethrows -> T?
{
let o = offset(off)

View File

@@ -115,7 +115,7 @@ public struct TableVerifier {
unionKeyName: String,
fieldName: String,
required: Bool,
completion: (inout Verifier, T, Int) throws -> Void) throws
completion: @escaping (inout Verifier, T, Int) throws -> Void) throws
where T: UnionEnum
{
let keyPos = try dereference(key)

View File

@@ -68,7 +68,7 @@ public struct FlatbufferVector<
}
extension FlatbufferVector: Encodable where Element: Encodable {
public func encode(to encoder: any Encoder) throws {
public func encode(to encoder: Encoder) throws {
var container = encoder.unkeyedContainer()
for element in self {
try container.encode(element)

View File

@@ -49,8 +49,8 @@ public struct UnionFlatbufferVector {
public subscript(
position: Int,
Type: any FlatbuffersVectorInitializable
.Type) -> any FlatbuffersVectorInitializable
Type: FlatbuffersVectorInitializable
.Type) -> FlatbuffersVectorInitializable
{
guard position < count else {
fatalError(

View File

@@ -146,7 +146,7 @@ struct _InternalByteBuffer {
#if !os(WASI)
@inline(__always)
@usableFromInline
mutating func push(bytes: any ContiguousBytes) {
mutating func push(bytes: ContiguousBytes) {
bytes.withUnsafeBytes { ptr in
ensureSpace(size: ptr.count)
memcpy(

View File

@@ -30,7 +30,7 @@ public struct ByteBuffer {
enum Blob {
#if !os(WASI)
case data(Data)
case bytes(any ContiguousBytes)
case bytes(ContiguousBytes)
#endif
case byteBuffer(_InternalByteBuffer)

View File

@@ -16,7 +16,7 @@
import Foundation
public enum FlexBufferType: UInt64, Sendable {
public enum FlexBufferType: UInt64 {
case null = 0
/// Variable width signed integer: `Int8, Int16, Int32, Int64`
case int = 1

View File

@@ -14,7 +14,6 @@
* limitations under the License.
*/
import Common
import Foundation
enum FlexBuffersErrors: Error {
@@ -24,10 +23,6 @@ enum FlexBuffersErrors: Error {
@inline(__always)
public func getRoot(buffer: ByteBuffer) throws -> Reference? {
assert(
isLitteEndian,
"Swift FlexBuffers currently only supports little-endian systems")
let end = buffer.count
if buffer.count < 3 {
throw FlexBuffersErrors.sizeOfBufferIsTooSmall

View File

@@ -17,7 +17,7 @@
import Foundation
@usableFromInline
enum BitWidth: UInt64, CaseIterable, Sendable {
enum BitWidth: UInt64, CaseIterable {
case w8 = 0
case w16 = 1
case w32 = 2

View File

@@ -20,10 +20,10 @@ import Foundation
import Common
#endif
public struct Value: Equatable, Sendable {
public struct Value: Equatable {
@usableFromInline
enum Union: Equatable, Sendable {
enum Union: Equatable {
case i(Int64)
case u(UInt64)
case f(Double)

View File

@@ -37,15 +37,12 @@ public struct FlexBuffersWriter {
private var hasDuplicatedKeys = false
private var minBitWidth: BitWidth = .w8
private var _bb: _InternalByteBuffer
private var stack: Stack = Stack()
private var stack: [Value] = []
private var keyPool: [Int: UInt] = [:]
private var stringPool: [Int: UInt] = [:]
private var flags: BuilderFlag
public init(initialSize: Int = 1024, flags: BuilderFlag = .shareKeys) {
assert(
isLitteEndian,
"Swift FlexBuffers currently only supports little-endian systems")
_bb = _InternalByteBuffer(initialSize: initialSize)
self.flags = flags
}
@@ -151,7 +148,7 @@ public struct FlexBuffersWriter {
typed: typed,
fixed: fixed,
keys: nil)
stack.popLast(start)
stack = Array(stack[..<start])
stack.append(vec)
return vec.u
}
@@ -220,7 +217,7 @@ public struct FlexBuffersWriter {
typed: false,
fixed: false,
keys: keys)
stack.popLast(start)
stack = Array(stack[..<start])
stack.append(vec)
return numericCast(vec.u)
}
@@ -724,7 +721,7 @@ public struct FlexBuffersWriter {
assert(
vectorType == stack[i].type,
"""
If you get this assert you are writing a typed vector
If you get this assert you are writing a typed vector
with elements that are not all the same type
""")
}
@@ -760,7 +757,7 @@ public struct FlexBuffersWriter {
}
if !fixed {
write(value: UInt64(count), byteWidth: byteWidth)
write(value: count, byteWidth: byteWidth)
}
let vloc = _bb.writerIndex
@@ -833,14 +830,13 @@ public struct FlexBuffersWriter {
let key, value: Value
}
stack.withUnsafeMutableBytes(start: start) { buffer in
stack[start...].withUnsafeMutableBytes { buffer in
var ptr = buffer.assumingMemoryBound(to: TwoValue.self)
ptr.sort { a, b in
let aMem = _bb.memory.advanced(by: numericCast(a.key.u))
.assumingMemoryBound(to: CChar.self)
let bMem = _bb.memory.advanced(by: numericCast(b.key.u))
.assumingMemoryBound(to: CChar.self)
let comp = strcmp(aMem, bMem)
if (comp == 0) && a != b { hasDuplicatedKeys = true }
return comp < 0
@@ -901,132 +897,3 @@ extension FlexBuffersWriter {
return endMap(start: start)
}
}
fileprivate struct Stack: RandomAccessCollection {
typealias Element = Value
typealias Index = Int
private final class Storage {
var memory: UnsafeMutableRawPointer
init(capacity: Int, alignment: Int) {
memory = .allocate(byteCount: capacity, alignment: alignment)
memset(memory, 0, capacity)
}
deinit {
memory.deallocate()
}
}
private static let initialCapacity = 10 &* MemoryLayout<Value>.stride
private let storage: Storage
private var capacity: Int
private(set) var count: Int
var startIndex: Int {
0
}
var endIndex: Int {
count
}
init() {
count = 0
capacity = Self.initialCapacity
storage = Storage(
capacity: capacity,
alignment: MemoryLayout<Value>.alignment)
}
@inline(__always)
subscript(position: Int) -> Value {
get {
storage.memory.advanced(by: position &* MemoryLayout<Value>.stride)
.assumingMemoryBound(to: Value.self).pointee
}
set {
storage.memory.advanced(by: position &* MemoryLayout<Value>.stride)
.assumingMemoryBound(to: Value.self).pointee = newValue
}
}
@inline(__always)
mutating func popLast(_ val: Int) {
count = if val < 0 {
0
} else {
val
}
}
mutating func append(_ value: Value) {
let writePosition = count &* MemoryLayout<Value>.stride
if writePosition >= capacity {
reallocate(writePosition: writePosition)
}
storage.memory.advanced(by: writePosition).storeBytes(
of: value,
as: Value.self)
count += 1
}
mutating func removeAll(keepingCapacity keepCapacity: Bool = false) {
count = 0
if !keepCapacity {
let ptr = storage.memory
defer { ptr.deallocate() }
capacity = Self.initialCapacity
storage.memory = UnsafeMutableRawPointer.allocate(
byteCount: capacity,
alignment: MemoryLayout<Value>.alignment)
}
memset(storage.memory, 0, capacity)
}
@discardableResult
mutating func withUnsafeMutableBytes<R>(
start: Int,
_ body: (UnsafeMutableRawBufferPointer) throws -> R) rethrows -> R
{
let startingPosition = start &* MemoryLayout<Value>.stride
let pointer = storage.memory.advanced(by: startingPosition)
return try body(UnsafeMutableRawBufferPointer(
start: pointer,
count: (count &* MemoryLayout<Value>.stride) &- startingPosition))
}
@discardableResult
mutating func withUnsafeMutableBytes<R>(
_ body: (UnsafeMutableRawBufferPointer) throws
-> R) rethrows -> R
{
return try body(UnsafeMutableRawBufferPointer(
start: storage.memory,
count: count &* MemoryLayout<Value>.stride))
}
mutating private func reallocate(writePosition: Int) {
while capacity <= writePosition {
capacity = capacity << 1
}
/// solution take from Apple-NIO
capacity = capacity.convertToPowerofTwo
let newData = UnsafeMutableRawPointer.allocate(
byteCount: capacity,
alignment: MemoryLayout<Value>.alignment)
memset(newData, 0, capacity)
memcpy(
newData,
storage.memory,
writePosition)
storage.memory.deallocate()
storage.memory = newData
}
}

View File

@@ -60,7 +60,7 @@ struct _InternalByteBuffer {
let newData = UnsafeMutableRawPointer.allocate(
byteCount: capacity,
alignment: alignment)
memset(newData, 0, capacity)
memset(newData, 0, capacity &- writerSize)
memcpy(
newData,
memory,

View File

@@ -52,7 +52,6 @@ cc_test(
"monster_test.cpp",
"monster_test.h",
"monster_test_bfbs_generated.h",
"cross_namespace_pack_test_generated.h",
"namespace_test/namespace_test1_generated.h",
"namespace_test/namespace_test2_generated.h",
"native_inline_table_test_generated.h",
@@ -137,7 +136,6 @@ cc_test(
deps = [
":alignment_test_cc_fbs",
":arrays_test_cc_fbs",
":cross_namespace_pack_test_cc_fbs",
":default_vectors_strings_test_cc_fbs",
":monster_extra_cc_fbs",
":monster_test_cc_fbs",
@@ -263,17 +261,6 @@ flatbuffer_cc_library(
],
)
flatbuffer_cc_library(
name = "cross_namespace_pack_test_cc_fbs",
srcs = ["cross_namespace_pack_test.fbs"],
flatc_args = [
"--gen-object-api",
"--gen-mutable",
"--gen-compare",
"--reflect-names",
],
)
flatbuffer_cc_library(
name = "native_type_test_cc_fbs",
srcs = ["native_type_test.fbs"],

View File

@@ -106,9 +106,6 @@
<Compile Include="..\MyGame\Example\NestedStruct.cs">
<Link>MyGame\Example\NestedStruct.cs</Link>
</Compile>
<Compile Include="..\MyGame\Example\LargeArrayStruct.cs">
<Link>MyGame\Example\LargeArrayStruct.cs</Link>
</Compile>
<Compile Include="..\MyGame\Example\LongEnum.cs">
<Link>MyGame\Example\LongEnum.cs</Link>
</Compile>

View File

@@ -1,150 +0,0 @@
// <auto-generated>
// automatically generated by the FlatBuffers compiler, do not modify
// </auto-generated>
namespace MyGame.Example
{
using global::System;
using global::System.Collections.Generic;
using global::Google.FlatBuffers;
public struct LargeArrayStruct : IFlatbufferObject
{
private Struct __p;
public ByteBuffer ByteBuffer { get { return __p.bb; } }
public void __init(int _i, ByteBuffer _bb) { __p = new Struct(_i, _bb); }
public LargeArrayStruct __assign(int _i, ByteBuffer _bb) { __init(_i, _bb); return this; }
public byte D(int j) { return __p.bb.Get(__p.bb_pos + 0 + j * 1); }
public const int DLength = 64;
#if ENABLE_SPAN_T
public Span<byte> GetDBytes() { return __p.bb.ToSpan(__p.bb_pos + 0, 64); }
#else
public ArraySegment<byte>? GetDBytes() { return __p.bb.ToArraySegment(__p.bb_pos + 0, 64);}
#endif
public void MutateD(int j, byte d) { __p.bb.Put(__p.bb_pos + 0 + j * 1, d); }
public float E(int j) { return __p.bb.GetFloat(__p.bb_pos + 64 + j * 4); }
public const int ELength = 64;
#if ENABLE_SPAN_T
public Span<float> GetEBytes() { return System.Runtime.InteropServices.MemoryMarshal.Cast<byte, float>(__p.bb.ToSpan(__p.bb_pos + 64, 256)); }
#else
public ArraySegment<byte>? GetEBytes() { return __p.bb.ToArraySegment(__p.bb_pos + 64, 256);}
#endif
public void MutateE(int j, float e) { __p.bb.PutFloat(__p.bb_pos + 64 + j * 4, e); }
public bool F(int j) { return 0!=__p.bb.Get(__p.bb_pos + 320 + j * 1); }
public const int FLength = 64;
#if ENABLE_SPAN_T
public Span<bool> GetFBytes() { return System.Runtime.InteropServices.MemoryMarshal.Cast<byte, bool>(__p.bb.ToSpan(__p.bb_pos + 320, 64)); }
#else
public ArraySegment<byte>? GetFBytes() { return __p.bb.ToArraySegment(__p.bb_pos + 320, 64);}
#endif
public void MutateF(int j, bool f) { __p.bb.Put(__p.bb_pos + 320 + j * 1, (byte)(f ? 1 : 0)); }
public MyGame.Example.NestedStruct G(int j) { return (new MyGame.Example.NestedStruct()).__assign(__p.bb_pos + 384 + j * 32, __p.bb); }
public MyGame.Example.TestEnum H(int j) { return (MyGame.Example.TestEnum)__p.bb.GetSbyte(__p.bb_pos + 2432 + j * 1); }
public const int HLength = 64;
#if ENABLE_SPAN_T
public Span<MyGame.Example.TestEnum> GetHBytes() { return System.Runtime.InteropServices.MemoryMarshal.Cast<byte, MyGame.Example.TestEnum>(__p.bb.ToSpan(__p.bb_pos + 2432, 64)); }
#else
public ArraySegment<byte>? GetHBytes() { return __p.bb.ToArraySegment(__p.bb_pos + 2432, 64);}
#endif
public void MutateH(int j, MyGame.Example.TestEnum h) { __p.bb.PutSbyte(__p.bb_pos + 2432 + j * 1, (sbyte)h); }
public static Offset<MyGame.Example.LargeArrayStruct> CreateLargeArrayStruct(FlatBufferBuilder builder, byte[] D, float[] E, bool[] F, int[,] g_A, MyGame.Example.TestEnum[] g_B, MyGame.Example.TestEnum[,] g_C, long[,] g_D, MyGame.Example.TestEnum[] H) {
builder.Prep(8, 2496);
for (int _idx0 = 64; _idx0 > 0; _idx0--) {
builder.PutSbyte((sbyte)H[_idx0-1]);
}
for (int _idx0 = 64; _idx0 > 0; _idx0--) {
builder.Prep(8, 32);
for (int _idx1 = 2; _idx1 > 0; _idx1--) {
builder.PutLong(g_D[_idx0-1,_idx1-1]);
}
builder.Pad(5);
for (int _idx1 = 2; _idx1 > 0; _idx1--) {
builder.PutSbyte((sbyte)g_C[_idx0-1,_idx1-1]);
}
builder.PutSbyte((sbyte)g_B[_idx0-1]);
for (int _idx1 = 2; _idx1 > 0; _idx1--) {
builder.PutInt(g_A[_idx0-1,_idx1-1]);
}
}
for (int _idx0 = 64; _idx0 > 0; _idx0--) {
builder.PutBool(F[_idx0-1]);
}
for (int _idx0 = 64; _idx0 > 0; _idx0--) {
builder.PutFloat(E[_idx0-1]);
}
for (int _idx0 = 64; _idx0 > 0; _idx0--) {
builder.PutByte(D[_idx0-1]);
}
return new Offset<MyGame.Example.LargeArrayStruct>(builder.Offset);
}
public LargeArrayStructT UnPack() {
var _o = new LargeArrayStructT();
this.UnPackTo(_o);
return _o;
}
public void UnPackTo(LargeArrayStructT _o) {
_o.D = new byte[64];
for (var _j = 0; _j < 64; ++_j) { _o.D[_j] = this.D(_j); }
_o.E = new float[64];
for (var _j = 0; _j < 64; ++_j) { _o.E[_j] = this.E(_j); }
_o.F = new bool[64];
for (var _j = 0; _j < 64; ++_j) { _o.F[_j] = this.F(_j); }
_o.G = new MyGame.Example.NestedStructT[64];
for (var _j = 0; _j < 64; ++_j) { _o.G[_j] = this.G(_j).UnPack(); }
_o.H = new MyGame.Example.TestEnum[64];
for (var _j = 0; _j < 64; ++_j) { _o.H[_j] = this.H(_j); }
}
public static Offset<MyGame.Example.LargeArrayStruct> Pack(FlatBufferBuilder builder, LargeArrayStructT _o) {
if (_o == null) return default(Offset<MyGame.Example.LargeArrayStruct>);
var _d = _o.D;
var _e = _o.E;
var _f = _o.F;
var _g_a = new int[64,2];
for (var idx0 = 0; idx0 < 64; ++idx0) {for (var idx1 = 0; idx1 < 2; ++idx1) {_g_a[idx0,idx1] = _o.G[idx0].A[idx1];}}
var _g_b = new MyGame.Example.TestEnum[64];
for (var idx0 = 0; idx0 < 64; ++idx0) {_g_b[idx0] = _o.G[idx0].B;}
var _g_c = new MyGame.Example.TestEnum[64,2];
for (var idx0 = 0; idx0 < 64; ++idx0) {for (var idx1 = 0; idx1 < 2; ++idx1) {_g_c[idx0,idx1] = _o.G[idx0].C[idx1];}}
var _g_d = new long[64,2];
for (var idx0 = 0; idx0 < 64; ++idx0) {for (var idx1 = 0; idx1 < 2; ++idx1) {_g_d[idx0,idx1] = _o.G[idx0].D[idx1];}}
var _h = _o.H;
return CreateLargeArrayStruct(
builder,
_d,
_e,
_f,
_g_a,
_g_b,
_g_c,
_g_d,
_h);
}
}
public class LargeArrayStructT
{
[Newtonsoft.Json.JsonProperty("d")]
public byte[] D { get; set; }
[Newtonsoft.Json.JsonProperty("e")]
public float[] E { get; set; }
[Newtonsoft.Json.JsonProperty("f")]
public bool[] F { get; set; }
[Newtonsoft.Json.JsonProperty("g")]
public MyGame.Example.NestedStructT[] G { get; set; }
[Newtonsoft.Json.JsonProperty("h")]
public MyGame.Example.TestEnum[] H { get; set; }
public LargeArrayStructT() {
this.D = new byte[64];
this.E = new float[64];
this.F = new bool[64];
this.G = new MyGame.Example.NestedStructT[64];
this.H = new MyGame.Example.TestEnum[64];
}
}
}

View File

@@ -1,117 +0,0 @@
// automatically generated by the FlatBuffers compiler, do not modify
package MyGame.Example;
import com.google.flatbuffers.BaseVector;
import com.google.flatbuffers.BooleanVector;
import com.google.flatbuffers.ByteVector;
import com.google.flatbuffers.Constants;
import com.google.flatbuffers.DoubleVector;
import com.google.flatbuffers.FlatBufferBuilder;
import com.google.flatbuffers.FloatVector;
import com.google.flatbuffers.IntVector;
import com.google.flatbuffers.LongVector;
import com.google.flatbuffers.ShortVector;
import com.google.flatbuffers.StringVector;
import com.google.flatbuffers.Struct;
import com.google.flatbuffers.UnionVector;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
@SuppressWarnings("unused")
public final class LargeArrayStruct extends Struct {
public void __init(int _i, ByteBuffer _bb) { __reset(_i, _bb); }
public LargeArrayStruct __assign(int _i, ByteBuffer _bb) { __init(_i, _bb); return this; }
public int d(int j) { return bb.get(bb_pos + 0 + j * 1); }
public void mutateD(int j, int d) { bb.put(bb_pos + 0 + j * 1, (byte) d); }
public float e(int j) { return bb.getFloat(bb_pos + 64 + j * 4); }
public void mutateE(int j, float e) { bb.putFloat(bb_pos + 64 + j * 4, e); }
public boolean f(int j) { return 0!=bb.get(bb_pos + 320 + j * 1); }
public void mutateF(int j, boolean f) { bb.put(bb_pos + 320 + j * 1, (byte)(f ? 1 : 0)); }
public MyGame.Example.NestedStruct g(int j) { return g(new MyGame.Example.NestedStruct(), j); }
public MyGame.Example.NestedStruct g(MyGame.Example.NestedStruct obj, int j) { return obj.__assign(bb_pos + 384 + j * 32, bb); }
public byte h(int j) { return bb.get(bb_pos + 2432 + j * 1); }
public void mutateH(int j, byte h) { bb.put(bb_pos + 2432 + j * 1, h); }
public static int createLargeArrayStruct(FlatBufferBuilder builder, int[] d, float[] e, boolean[] f, int[][] g_a, byte[] g_b, byte[][] g_c, long[][] g_d, byte[] h) {
builder.prep(8, 2496);
for (int _idx0 = 64; _idx0 > 0; _idx0--) {
builder.putByte(h[_idx0-1]);
}
for (int _idx0 = 64; _idx0 > 0; _idx0--) {
builder.prep(8, 32);
for (int _idx1 = 2; _idx1 > 0; _idx1--) {
builder.putLong(g_d[_idx0-1][_idx1-1]);
}
builder.pad(5);
for (int _idx1 = 2; _idx1 > 0; _idx1--) {
builder.putByte(g_c[_idx0-1][_idx1-1]);
}
builder.putByte(g_b[_idx0-1]);
for (int _idx1 = 2; _idx1 > 0; _idx1--) {
builder.putInt(g_a[_idx0-1][_idx1-1]);
}
}
for (int _idx0 = 64; _idx0 > 0; _idx0--) {
builder.putBoolean(f[_idx0-1]);
}
for (int _idx0 = 64; _idx0 > 0; _idx0--) {
builder.putFloat(e[_idx0-1]);
}
for (int _idx0 = 64; _idx0 > 0; _idx0--) {
builder.putByte((byte) d[_idx0-1]);
}
return builder.offset();
}
public static final class Vector extends BaseVector {
public Vector __assign(int _vector, int _element_size, ByteBuffer _bb) { __reset(_vector, _element_size, _bb); return this; }
public LargeArrayStruct get(int j) { return get(new LargeArrayStruct(), j); }
public LargeArrayStruct get(LargeArrayStruct obj, int j) { return obj.__assign(__element(j), bb); }
}
public LargeArrayStructT unpack() {
LargeArrayStructT _o = new LargeArrayStructT();
unpackTo(_o);
return _o;
}
public void unpackTo(LargeArrayStructT _o) {
int[] _oD = _o.getD();
for (int _j = 0; _j < 64; ++_j) { _oD[_j] = d(_j); }
float[] _oE = _o.getE();
for (int _j = 0; _j < 64; ++_j) { _oE[_j] = e(_j); }
boolean[] _oF = _o.getF();
for (int _j = 0; _j < 64; ++_j) { _oF[_j] = f(_j); }
MyGame.Example.NestedStructT[] _oG = _o.getG();
for (int _j = 0; _j < 64; ++_j) { _oG[_j] = g(_j).unpack(); }
byte[] _oH = _o.getH();
for (int _j = 0; _j < 64; ++_j) { _oH[_j] = h(_j); }
}
public static int pack(FlatBufferBuilder builder, LargeArrayStructT _o) {
if (_o == null) return 0;
int[] _d = _o.getD();
float[] _e = _o.getE();
boolean[] _f = _o.getF();
int[][] _g_a = new int[64][2];
for (int idx0 = 0; idx0 < 64; ++idx0) {for (int idx1 = 0; idx1 < 2; ++idx1) {_g_a[idx0][idx1] = _o.getG()[idx0].getA()[idx1];}}
byte[] _g_b = new byte[64];
for (int idx0 = 0; idx0 < 64; ++idx0) {_g_b[idx0] = _o.getG()[idx0].getB();}
byte[][] _g_c = new byte[64][2];
for (int idx0 = 0; idx0 < 64; ++idx0) {for (int idx1 = 0; idx1 < 2; ++idx1) {_g_c[idx0][idx1] = _o.getG()[idx0].getC()[idx1];}}
long[][] _g_d = new long[64][2];
for (int idx0 = 0; idx0 < 64; ++idx0) {for (int idx1 = 0; idx1 < 2; ++idx1) {_g_d[idx0][idx1] = _o.getG()[idx0].getD()[idx1];}}
byte[] _h = _o.getH();
return createLargeArrayStruct(
builder,
_d,
_e,
_f,
_g_a,
_g_b,
_g_c,
_g_d,
_h);
}
}

View File

@@ -1,226 +0,0 @@
# automatically generated by the FlatBuffers compiler, do not modify
# namespace: Example
import flatbuffers
from flatbuffers.compat import import_numpy
from typing import Any
from MyGame.Example.NestedStruct import NestedStruct
np = import_numpy()
class LargeArrayStruct(object):
__slots__ = ['_tab']
@classmethod
def SizeOf(cls) -> int:
return 2496
# LargeArrayStruct
def Init(self, buf: bytes, pos: int):
self._tab = flatbuffers.table.Table(buf, pos)
# LargeArrayStruct
def D(self, j = None):
if j is None:
return [self._tab.Get(flatbuffers.number_types.Uint8Flags, self._tab.Pos + flatbuffers.number_types.UOffsetTFlags.py_type(0 + i * 1)) for i in range(self.DLength())]
elif j >= 0 and j < self.DLength():
return self._tab.Get(flatbuffers.number_types.Uint8Flags, self._tab.Pos + flatbuffers.number_types.UOffsetTFlags.py_type(0 + j * 1))
else:
return None
# LargeArrayStruct
def DAsNumpy(self):
return self._tab.GetArrayAsNumpy(flatbuffers.number_types.Uint8Flags, self._tab.Pos + 0, self.DLength())
# LargeArrayStruct
def DLength(self) -> int:
return 64
# LargeArrayStruct
def DIsNone(self) -> bool:
return False
# LargeArrayStruct
def E(self, j = None):
if j is None:
return [self._tab.Get(flatbuffers.number_types.Float32Flags, self._tab.Pos + flatbuffers.number_types.UOffsetTFlags.py_type(64 + i * 4)) for i in range(self.ELength())]
elif j >= 0 and j < self.ELength():
return self._tab.Get(flatbuffers.number_types.Float32Flags, self._tab.Pos + flatbuffers.number_types.UOffsetTFlags.py_type(64 + j * 4))
else:
return None
# LargeArrayStruct
def EAsNumpy(self):
return self._tab.GetArrayAsNumpy(flatbuffers.number_types.Float32Flags, self._tab.Pos + 64, self.ELength())
# LargeArrayStruct
def ELength(self) -> int:
return 64
# LargeArrayStruct
def EIsNone(self) -> bool:
return False
# LargeArrayStruct
def F(self, j = None):
if j is None:
return [self._tab.Get(flatbuffers.number_types.BoolFlags, self._tab.Pos + flatbuffers.number_types.UOffsetTFlags.py_type(320 + i * 1)) for i in range(self.FLength())]
elif j >= 0 and j < self.FLength():
return self._tab.Get(flatbuffers.number_types.BoolFlags, self._tab.Pos + flatbuffers.number_types.UOffsetTFlags.py_type(320 + j * 1))
else:
return None
# LargeArrayStruct
def FAsNumpy(self):
return self._tab.GetArrayAsNumpy(flatbuffers.number_types.BoolFlags, self._tab.Pos + 320, self.FLength())
# LargeArrayStruct
def FLength(self) -> int:
return 64
# LargeArrayStruct
def FIsNone(self) -> bool:
return False
# LargeArrayStruct
def G(self, i: int) -> NestedStruct:
obj = NestedStruct()
obj.Init(self._tab.Bytes, self._tab.Pos + 384 + i * 32)
return obj
# LargeArrayStruct
def GLength(self) -> int:
return 64
# LargeArrayStruct
def GIsNone(self) -> bool:
return False
# LargeArrayStruct
def H(self, j = None):
if j is None:
return [self._tab.Get(flatbuffers.number_types.Int8Flags, self._tab.Pos + flatbuffers.number_types.UOffsetTFlags.py_type(2432 + i * 1)) for i in range(self.HLength())]
elif j >= 0 and j < self.HLength():
return self._tab.Get(flatbuffers.number_types.Int8Flags, self._tab.Pos + flatbuffers.number_types.UOffsetTFlags.py_type(2432 + j * 1))
else:
return None
# LargeArrayStruct
def HAsNumpy(self):
return self._tab.GetArrayAsNumpy(flatbuffers.number_types.Int8Flags, self._tab.Pos + 2432, self.HLength())
# LargeArrayStruct
def HLength(self) -> int:
return 64
# LargeArrayStruct
def HIsNone(self) -> bool:
return False
def CreateLargeArrayStruct(builder, d, e, f, g_a, g_b, g_c, g_d, h):
builder.Prep(8, 2496)
for _idx0 in range(64 , 0, -1):
builder.PrependInt8(h[_idx0-1])
for _idx0 in range(64 , 0, -1):
builder.Prep(8, 32)
for _idx1 in range(2 , 0, -1):
builder.PrependInt64(g_d[_idx0-1][_idx1-1])
builder.Pad(5)
for _idx1 in range(2 , 0, -1):
builder.PrependInt8(g_c[_idx0-1][_idx1-1])
builder.PrependInt8(g_b[_idx0-1])
for _idx1 in range(2 , 0, -1):
builder.PrependInt32(g_a[_idx0-1][_idx1-1])
for _idx0 in range(64 , 0, -1):
builder.PrependBool(f[_idx0-1])
for _idx0 in range(64 , 0, -1):
builder.PrependFloat32(e[_idx0-1])
for _idx0 in range(64 , 0, -1):
builder.PrependUint8(d[_idx0-1])
return builder.Offset()
import MyGame.Example.NestedStruct
try:
from typing import List
except:
pass
class LargeArrayStructT(object):
# LargeArrayStructT
def __init__(
self,
d = None,
e = None,
f = None,
g = None,
h = None,
):
self.d = d # type: Optional[List[int]]
self.e = e # type: Optional[List[float]]
self.f = f # type: Optional[List[bool]]
self.g = g # type: Optional[List[MyGame.Example.NestedStruct.NestedStructT]]
self.h = h # type: Optional[List[int]]
@classmethod
def InitFromBuf(cls, buf, pos):
largeArrayStruct = LargeArrayStruct()
largeArrayStruct.Init(buf, pos)
return cls.InitFromObj(largeArrayStruct)
@classmethod
def InitFromPackedBuf(cls, buf, pos=0):
n = flatbuffers.encode.Get(flatbuffers.packer.uoffset, buf, pos)
return cls.InitFromBuf(buf, pos+n)
@classmethod
def InitFromObj(cls, largeArrayStruct):
x = LargeArrayStructT()
x._UnPack(largeArrayStruct)
return x
# LargeArrayStructT
def _UnPack(self, largeArrayStruct):
if largeArrayStruct is None:
return
if not largeArrayStruct.DIsNone():
if np is None:
self.d = []
for i in range(largeArrayStruct.DLength()):
self.d.append(largeArrayStruct.D(i))
else:
self.d = largeArrayStruct.DAsNumpy()
if not largeArrayStruct.EIsNone():
if np is None:
self.e = []
for i in range(largeArrayStruct.ELength()):
self.e.append(largeArrayStruct.E(i))
else:
self.e = largeArrayStruct.EAsNumpy()
if not largeArrayStruct.FIsNone():
if np is None:
self.f = []
for i in range(largeArrayStruct.FLength()):
self.f.append(largeArrayStruct.F(i))
else:
self.f = largeArrayStruct.FAsNumpy()
if not largeArrayStruct.GIsNone():
self.g = []
for i in range(largeArrayStruct.GLength()):
if largeArrayStruct.G(i) is None:
self.g.append(None)
else:
nestedStruct_ = MyGame.Example.NestedStruct.NestedStructT.InitFromObj(largeArrayStruct.G(i))
self.g.append(nestedStruct_)
if not largeArrayStruct.HIsNone():
if np is None:
self.h = []
for i in range(largeArrayStruct.HLength()):
self.h.append(largeArrayStruct.H(i))
else:
self.h = largeArrayStruct.HAsNumpy()
# LargeArrayStructT
def Pack(self, builder):
return CreateLargeArrayStruct(builder, self.d, self.e, self.f, self.g.a, self.g.b, self.g.c, self.g.d, self.h)

View File

@@ -1,60 +0,0 @@
from __future__ import annotations
import flatbuffers
import numpy as np
import typing
from MyGame.Example.NestedStruct import NestedStruct, NestedStructT
from MyGame.Example.TestEnum import TestEnum
uoffset: typing.TypeAlias = flatbuffers.number_types.UOffsetTFlags.py_type
class LargeArrayStruct(object):
@classmethod
def SizeOf(cls) -> int: ...
def Init(self, buf: bytes, pos: int) -> None: ...
def D(self, i: int) -> typing.List[int]: ...
def DAsNumpy(self) -> np.ndarray: ...
def DLength(self) -> int: ...
def DIsNone(self) -> bool: ...
def E(self, i: int) -> typing.List[float]: ...
def EAsNumpy(self) -> np.ndarray: ...
def ELength(self) -> int: ...
def EIsNone(self) -> bool: ...
def F(self, i: int) -> typing.List[bool]: ...
def FAsNumpy(self) -> np.ndarray: ...
def FLength(self) -> int: ...
def FIsNone(self) -> bool: ...
def G(self, i: int) -> NestedStruct | None: ...
def GLength(self) -> int: ...
def GIsNone(self) -> bool: ...
def H(self, i: int) -> typing.Literal[TestEnum.A, TestEnum.B, TestEnum.C]: ...
def HAsNumpy(self) -> np.ndarray: ...
def HLength(self) -> int: ...
def HIsNone(self) -> bool: ...
class LargeArrayStructT(object):
d: typing.List[int]
e: typing.List[float]
f: typing.List[bool]
g: typing.List[NestedStructT]
h: typing.List[typing.Literal[TestEnum.A, TestEnum.B, TestEnum.C]]
def __init__(
self,
d: typing.List[int] | None = ...,
e: typing.List[float] | None = ...,
f: typing.List[bool] | None = ...,
g: typing.List['NestedStructT'] | None = ...,
h: typing.List[typing.Literal[TestEnum.A, TestEnum.B, TestEnum.C]] | None = ...,
) -> None: ...
@classmethod
def InitFromBuf(cls, buf: bytes, pos: int) -> LargeArrayStructT: ...
@classmethod
def InitFromPackedBuf(cls, buf: bytes, pos: int = 0) -> LargeArrayStructT: ...
@classmethod
def InitFromObj(cls, largeArrayStruct: LargeArrayStruct) -> LargeArrayStructT: ...
def _UnPack(self, largeArrayStruct: LargeArrayStruct) -> None: ...
def Pack(self, builder: flatbuffers.Builder) -> None: ...
def CreateLargeArrayStruct(builder: flatbuffers.Builder, d: int, e: float, f: bool, g_a: int, g_b: typing.Literal[TestEnum.A, TestEnum.B, TestEnum.C], g_c: typing.Literal[TestEnum.A, TestEnum.B, TestEnum.C], g_d: int, h: typing.Literal[TestEnum.A, TestEnum.B, TestEnum.C]) -> uoffset: ...

View File

@@ -1,57 +0,0 @@
// automatically generated by the FlatBuffers compiler, do not modify
package MyGame.Example;
import com.google.flatbuffers.BaseVector;
import com.google.flatbuffers.BooleanVector;
import com.google.flatbuffers.ByteVector;
import com.google.flatbuffers.Constants;
import com.google.flatbuffers.DoubleVector;
import com.google.flatbuffers.FlatBufferBuilder;
import com.google.flatbuffers.FloatVector;
import com.google.flatbuffers.IntVector;
import com.google.flatbuffers.LongVector;
import com.google.flatbuffers.ShortVector;
import com.google.flatbuffers.StringVector;
import com.google.flatbuffers.Struct;
import com.google.flatbuffers.UnionVector;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
public class LargeArrayStructT {
private int[] d;
private float[] e;
private boolean[] f;
private MyGame.Example.NestedStructT[] g;
private byte[] h;
public int[] getD() { return d; }
public void setD(int[] d) { if (d != null && d.length == 64) this.d = d; }
public float[] getE() { return e; }
public void setE(float[] e) { if (e != null && e.length == 64) this.e = e; }
public boolean[] getF() { return f; }
public void setF(boolean[] f) { if (f != null && f.length == 64) this.f = f; }
public MyGame.Example.NestedStructT[] getG() { return g; }
public void setG(MyGame.Example.NestedStructT[] g) { if (g != null && g.length == 64) this.g = g; }
public byte[] getH() { return h; }
public void setH(byte[] h) { if (h != null && h.length == 64) this.h = h; }
public LargeArrayStructT() {
this.d = new int[64];
this.e = new float[64];
this.f = new boolean[64];
this.g = new MyGame.Example.NestedStructT[64];
this.h = new byte[64];
}
}

View File

@@ -922,7 +922,7 @@ def MonsterCreateInventoryVector(builder, data):
return builder.EndVector()
def CreateInventoryVector(builder, data):
return MonsterCreateInventoryVector(builder, data)
MonsterCreateInventoryVector(builder, data)
def MonsterAddColor(builder, color):
builder.PrependUint8Slot(6, color, 8)
@@ -962,7 +962,7 @@ def MonsterCreateTest4Vector(builder, data):
return builder.EndVector()
def CreateTest4Vector(builder, data):
return MonsterCreateTest4Vector(builder, data)
MonsterCreateTest4Vector(builder, data)
def MonsterAddTestarrayofstring(builder, testarrayofstring):
builder.PrependUOffsetTRelativeSlot(10, flatbuffers.number_types.UOffsetTFlags.py_type(testarrayofstring), 0)
@@ -980,7 +980,7 @@ def MonsterCreateTestarrayofstringVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateTestarrayofstringVector(builder, data):
return MonsterCreateTestarrayofstringVector(builder, data)
MonsterCreateTestarrayofstringVector(builder, data)
def MonsterAddTestarrayoftables(builder, testarrayoftables):
builder.PrependUOffsetTRelativeSlot(11, flatbuffers.number_types.UOffsetTFlags.py_type(testarrayoftables), 0)
@@ -998,7 +998,7 @@ def MonsterCreateTestarrayoftablesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateTestarrayoftablesVector(builder, data):
return MonsterCreateTestarrayoftablesVector(builder, data)
MonsterCreateTestarrayoftablesVector(builder, data)
def MonsterAddEnemy(builder, enemy):
builder.PrependUOffsetTRelativeSlot(12, flatbuffers.number_types.UOffsetTFlags.py_type(enemy), 0)
@@ -1026,7 +1026,7 @@ def MonsterCreateTestnestedflatbufferVector(builder, data):
return builder.EndVector()
def CreateTestnestedflatbufferVector(builder, data):
return MonsterCreateTestnestedflatbufferVector(builder, data)
MonsterCreateTestnestedflatbufferVector(builder, data)
def MonsterMakeTestnestedflatbufferVectorFromBytes(builder, bytes):
builder.StartVector(1, len(bytes), 1)
@@ -1115,7 +1115,7 @@ def MonsterCreateTestarrayofboolsVector(builder, data):
return builder.EndVector()
def CreateTestarrayofboolsVector(builder, data):
return MonsterCreateTestarrayofboolsVector(builder, data)
MonsterCreateTestarrayofboolsVector(builder, data)
def MonsterAddTestf(builder, testf):
builder.PrependFloat32Slot(25, testf, 3.14159)
@@ -1151,7 +1151,7 @@ def MonsterCreateTestarrayofstring2Vector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateTestarrayofstring2Vector(builder, data):
return MonsterCreateTestarrayofstring2Vector(builder, data)
MonsterCreateTestarrayofstring2Vector(builder, data)
def MonsterAddTestarrayofsortedstruct(builder, testarrayofsortedstruct):
builder.PrependUOffsetTRelativeSlot(29, flatbuffers.number_types.UOffsetTFlags.py_type(testarrayofsortedstruct), 0)
@@ -1173,7 +1173,7 @@ def MonsterCreateTestarrayofsortedstructVector(builder, data):
return builder.EndVector()
def CreateTestarrayofsortedstructVector(builder, data):
return MonsterCreateTestarrayofsortedstructVector(builder, data)
MonsterCreateTestarrayofsortedstructVector(builder, data)
def MonsterAddFlex(builder, flex):
builder.PrependUOffsetTRelativeSlot(30, flatbuffers.number_types.UOffsetTFlags.py_type(flex), 0)
@@ -1195,7 +1195,7 @@ def MonsterCreateFlexVector(builder, data):
return builder.EndVector()
def CreateFlexVector(builder, data):
return MonsterCreateFlexVector(builder, data)
MonsterCreateFlexVector(builder, data)
def MonsterAddTest5(builder, test5):
builder.PrependUOffsetTRelativeSlot(31, flatbuffers.number_types.UOffsetTFlags.py_type(test5), 0)
@@ -1217,7 +1217,7 @@ def MonsterCreateTest5Vector(builder, data):
return builder.EndVector()
def CreateTest5Vector(builder, data):
return MonsterCreateTest5Vector(builder, data)
MonsterCreateTest5Vector(builder, data)
def MonsterAddVectorOfLongs(builder, vectorOfLongs):
builder.PrependUOffsetTRelativeSlot(32, flatbuffers.number_types.UOffsetTFlags.py_type(vectorOfLongs), 0)
@@ -1239,7 +1239,7 @@ def MonsterCreateVectorOfLongsVector(builder, data):
return builder.EndVector()
def CreateVectorOfLongsVector(builder, data):
return MonsterCreateVectorOfLongsVector(builder, data)
MonsterCreateVectorOfLongsVector(builder, data)
def MonsterAddVectorOfDoubles(builder, vectorOfDoubles):
builder.PrependUOffsetTRelativeSlot(33, flatbuffers.number_types.UOffsetTFlags.py_type(vectorOfDoubles), 0)
@@ -1261,7 +1261,7 @@ def MonsterCreateVectorOfDoublesVector(builder, data):
return builder.EndVector()
def CreateVectorOfDoublesVector(builder, data):
return MonsterCreateVectorOfDoublesVector(builder, data)
MonsterCreateVectorOfDoublesVector(builder, data)
def MonsterAddParentNamespaceTest(builder, parentNamespaceTest):
builder.PrependUOffsetTRelativeSlot(34, flatbuffers.number_types.UOffsetTFlags.py_type(parentNamespaceTest), 0)
@@ -1285,7 +1285,7 @@ def MonsterCreateVectorOfReferrablesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateVectorOfReferrablesVector(builder, data):
return MonsterCreateVectorOfReferrablesVector(builder, data)
MonsterCreateVectorOfReferrablesVector(builder, data)
def MonsterAddSingleWeakReference(builder, singleWeakReference):
builder.PrependUint64Slot(36, singleWeakReference, 0)
@@ -1313,7 +1313,7 @@ def MonsterCreateVectorOfWeakReferencesVector(builder, data):
return builder.EndVector()
def CreateVectorOfWeakReferencesVector(builder, data):
return MonsterCreateVectorOfWeakReferencesVector(builder, data)
MonsterCreateVectorOfWeakReferencesVector(builder, data)
def MonsterAddVectorOfStrongReferrables(builder, vectorOfStrongReferrables):
builder.PrependUOffsetTRelativeSlot(38, flatbuffers.number_types.UOffsetTFlags.py_type(vectorOfStrongReferrables), 0)
@@ -1331,7 +1331,7 @@ def MonsterCreateVectorOfStrongReferrablesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateVectorOfStrongReferrablesVector(builder, data):
return MonsterCreateVectorOfStrongReferrablesVector(builder, data)
MonsterCreateVectorOfStrongReferrablesVector(builder, data)
def MonsterAddCoOwningReference(builder, coOwningReference):
builder.PrependUint64Slot(39, coOwningReference, 0)
@@ -1359,7 +1359,7 @@ def MonsterCreateVectorOfCoOwningReferencesVector(builder, data):
return builder.EndVector()
def CreateVectorOfCoOwningReferencesVector(builder, data):
return MonsterCreateVectorOfCoOwningReferencesVector(builder, data)
MonsterCreateVectorOfCoOwningReferencesVector(builder, data)
def MonsterAddNonOwningReference(builder, nonOwningReference):
builder.PrependUint64Slot(41, nonOwningReference, 0)
@@ -1387,7 +1387,7 @@ def MonsterCreateVectorOfNonOwningReferencesVector(builder, data):
return builder.EndVector()
def CreateVectorOfNonOwningReferencesVector(builder, data):
return MonsterCreateVectorOfNonOwningReferencesVector(builder, data)
MonsterCreateVectorOfNonOwningReferencesVector(builder, data)
def MonsterAddAnyUniqueType(builder, anyUniqueType):
builder.PrependUint8Slot(43, anyUniqueType, 0)
@@ -1433,7 +1433,7 @@ def MonsterCreateVectorOfEnumsVector(builder, data):
return builder.EndVector()
def CreateVectorOfEnumsVector(builder, data):
return MonsterCreateVectorOfEnumsVector(builder, data)
MonsterCreateVectorOfEnumsVector(builder, data)
def MonsterAddSignedEnum(builder, signedEnum):
builder.PrependInt8Slot(48, signedEnum, -1)
@@ -1461,7 +1461,7 @@ def MonsterCreateTestrequirednestedflatbufferVector(builder, data):
return builder.EndVector()
def CreateTestrequirednestedflatbufferVector(builder, data):
return MonsterCreateTestrequirednestedflatbufferVector(builder, data)
MonsterCreateTestrequirednestedflatbufferVector(builder, data)
def MonsterMakeTestrequirednestedflatbufferVectorFromBytes(builder, bytes):
builder.StartVector(1, len(bytes), 1)
@@ -1486,7 +1486,7 @@ def MonsterCreateScalarKeySortedTablesVector(builder, data):
return builder.CreateVectorOfTables(data)
def CreateScalarKeySortedTablesVector(builder, data):
return MonsterCreateScalarKeySortedTablesVector(builder, data)
MonsterCreateScalarKeySortedTablesVector(builder, data)
def MonsterAddNativeInline(builder, nativeInline):
builder.PrependStructSlot(51, flatbuffers.number_types.UOffsetTFlags.py_type(nativeInline), 0)

View File

@@ -238,7 +238,7 @@ def TypeAliasesCreateV8Vector(builder, data):
return builder.EndVector()
def CreateV8Vector(builder, data):
return TypeAliasesCreateV8Vector(builder, data)
TypeAliasesCreateV8Vector(builder, data)
def TypeAliasesAddVf64(builder, vf64):
builder.PrependUOffsetTRelativeSlot(11, flatbuffers.number_types.UOffsetTFlags.py_type(vf64), 0)
@@ -260,7 +260,7 @@ def TypeAliasesCreateVf64Vector(builder, data):
return builder.EndVector()
def CreateVf64Vector(builder, data):
return TypeAliasesCreateVf64Vector(builder, data)
TypeAliasesCreateVf64Vector(builder, data)
def TypeAliasesEnd(builder):
return builder.EndObject()

View File

@@ -214,7 +214,7 @@ def MonsterExtraCreateDvecVector(builder: flatbuffers.Builder, data: Iterable[An
return builder.EndVector()
def CreateDvecVector(builder: flatbuffers.Builder, data: Iterable[Any]) -> int:
return MonsterExtraCreateDvecVector(builder, data)
MonsterExtraCreateDvecVector(builder, data)
def MonsterExtraAddFvec(builder: flatbuffers.Builder, fvec: int):
builder.PrependUOffsetTRelativeSlot(9, flatbuffers.number_types.UOffsetTFlags.py_type(fvec), 0)
@@ -236,7 +236,7 @@ def MonsterExtraCreateFvecVector(builder: flatbuffers.Builder, data: Iterable[An
return builder.EndVector()
def CreateFvecVector(builder: flatbuffers.Builder, data: Iterable[Any]) -> int:
return MonsterExtraCreateFvecVector(builder, data)
MonsterExtraCreateFvecVector(builder, data)
def MonsterExtraEnd(builder: flatbuffers.Builder) -> int:
return builder.EndObject()

View File

@@ -28,7 +28,6 @@ ${test_dir}/../flatc -p -o ${gen_code_path} -I include_test monster_extra.fbs --
${test_dir}/../flatc -p -o ${gen_code_path} -I include_test arrays_test.fbs --gen-object-api --python-typing
${test_dir}/../flatc -p -o ${gen_code_path} -I include_test nested_union_test.fbs --gen-object-api --python-typing --python-decode-obj-api-strings
${test_dir}/../flatc -p -o ${gen_code_path} -I include_test service_test.fbs --grpc --grpc-python-typed-handlers --python-typing --no-python-gen-numpy --gen-onefile
${test_dir}/../flatc -p -o ${gen_code_path} union_name_test.fbs --gen-object-api
# Syntax: run_tests <interpreter> <benchmark vtable dedupes>
# <benchmark read count> <benchmark build count>

Binary file not shown.

View File

@@ -18,14 +18,6 @@ struct ArrayStruct{
f:[int64:2];
}
struct LargeArrayStruct {
d:[ubyte:64];
e:[float:64];
f:[bool:64];
g:[NestedStruct:64];
h:[TestEnum:64];
}
table ArrayTable{
a:ArrayStruct;
}

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